From 9b18fc98087176c9588e0d41a75d042e4519d12c Mon Sep 17 00:00:00 2001 From: natsfr Date: Sat, 25 Mar 2017 00:26:13 +0100 Subject: [PATCH] matching the BFP420 amplifier --- .../BFP420_w_noise_VCE_4.0V_IC_20mA.s2p | 252 + .../BFP420_w_noise_VCE_4.0V_IC_35mA.s2p | 252 + Amplifier_BJT/Infineon_rf_trans.lib | 6317 +++++++++++++++++ Amplifier_BJT/bfp420.asy | 25 + Amplifier_BJT/bfp420.lib | 102 + Amplifier_BJT/bfp420_amp.asc | 86 + 6 files changed, 7034 insertions(+) create mode 100644 Amplifier_BJT/BFP420_w_noise_VCE_4.0V_IC_20mA.s2p create mode 100644 Amplifier_BJT/BFP420_w_noise_VCE_4.0V_IC_35mA.s2p create mode 100644 Amplifier_BJT/Infineon_rf_trans.lib create mode 100644 Amplifier_BJT/bfp420.asy create mode 100644 Amplifier_BJT/bfp420.lib create mode 100644 Amplifier_BJT/bfp420_amp.asc diff --git a/Amplifier_BJT/BFP420_w_noise_VCE_4.0V_IC_20mA.s2p b/Amplifier_BJT/BFP420_w_noise_VCE_4.0V_IC_20mA.s2p new file mode 100644 index 0000000..f346343 --- /dev/null +++ b/Amplifier_BJT/BFP420_w_noise_VCE_4.0V_IC_20mA.s2p @@ -0,0 +1,252 @@ +! Infineon Technologies Discrete & RF Semiconductors +! BFP420 +! VCE = 4.0 V, IC = 20 mA +! Common Emitter S-Parameters: Jan 2016 +# GHz S MA R 50 +! f S11 S21 S12 S22 +! GHz MAG ANG MAG ANG MAG ANG MAG ANG + 0.010 0.5072 -2.7 41.185 178.6 0.0016 40.9 0.9143 2.1 + 0.015 0.5076 -3.7 40.603 177.4 0.0016 47.4 0.9200 0.1 + 0.020 0.5082 -4.6 40.040 176.1 0.0017 53.5 0.9267 -1.8 + 0.025 0.5084 -5.9 39.943 175.3 0.0020 57.4 0.9268 -2.5 + 0.030 0.5088 -7.2 39.854 174.6 0.0024 60.2 0.9269 -3.1 + 0.035 0.5095 -8.5 39.771 173.8 0.0027 62.2 0.9272 -3.8 + 0.040 0.5105 -9.8 39.695 173.0 0.0031 63.8 0.9276 -4.4 + 0.045 0.5117 -11.0 39.627 172.3 0.0034 65.1 0.9282 -5.1 + 0.050 0.5132 -12.3 39.566 171.5 0.0038 66.1 0.9288 -5.7 + 0.055 0.5117 -13.6 39.452 170.8 0.0041 66.8 0.9269 -6.3 + 0.060 0.5105 -14.8 39.345 170.0 0.0044 67.5 0.9250 -6.9 + 0.065 0.5095 -16.1 39.245 169.3 0.0047 68.0 0.9233 -7.6 + 0.070 0.5087 -17.4 39.152 168.5 0.0050 68.5 0.9217 -8.2 + 0.075 0.5082 -18.6 39.065 167.7 0.0052 69.0 0.9202 -8.8 + 0.080 0.5080 -19.9 38.985 167.0 0.0055 69.4 0.9188 -9.5 + 0.085 0.5080 -21.2 38.912 166.2 0.0058 69.7 0.9175 -10.1 + 0.090 0.5082 -22.5 38.847 165.4 0.0061 70.0 0.9163 -10.7 + 0.095 0.5087 -23.7 38.788 164.7 0.0064 70.3 0.9152 -11.4 + 0.100 0.5095 -25.0 38.736 163.9 0.0067 70.6 0.9143 -12.0 + 0.105 0.5075 -26.2 38.567 163.2 0.0070 70.5 0.9111 -12.6 + 0.110 0.5057 -27.4 38.403 162.5 0.0073 70.5 0.9080 -13.2 + 0.115 0.5042 -28.6 38.245 161.8 0.0077 70.4 0.9051 -13.7 + 0.120 0.5028 -29.8 38.094 161.0 0.0080 70.4 0.9022 -14.3 + 0.125 0.5017 -31.0 37.948 160.3 0.0083 70.4 0.8994 -14.9 + 0.130 0.5009 -32.3 37.809 159.6 0.0086 70.3 0.8967 -15.5 + 0.135 0.5002 -33.5 37.676 158.8 0.0089 70.3 0.8940 -16.1 + 0.140 0.4998 -34.7 37.549 158.1 0.0093 70.3 0.8915 -16.7 + 0.145 0.4996 -36.0 37.429 157.4 0.0096 70.2 0.8891 -17.3 + 0.150 0.4997 -37.2 37.315 156.6 0.0099 70.2 0.8868 -17.9 + 0.155 0.4981 -38.3 37.126 156.0 0.0102 69.9 0.8830 -18.4 + 0.160 0.4966 -39.4 36.942 155.3 0.0105 69.6 0.8793 -18.9 + 0.165 0.4953 -40.5 36.763 154.7 0.0107 69.3 0.8757 -19.5 + 0.170 0.4943 -41.6 36.588 154.0 0.0110 69.1 0.8721 -20.0 + 0.175 0.4934 -42.8 36.419 153.3 0.0113 68.9 0.8686 -20.5 + 0.180 0.4927 -43.9 36.254 152.7 0.0116 68.6 0.8652 -21.1 + 0.185 0.4922 -45.0 36.095 152.0 0.0119 68.4 0.8619 -21.6 + 0.190 0.4919 -46.1 35.940 151.3 0.0121 68.2 0.8587 -22.2 + 0.195 0.4917 -47.3 35.791 150.6 0.0124 68.0 0.8555 -22.7 + 0.200 0.4918 -48.4 35.647 149.9 0.0127 67.8 0.8524 -23.3 + 0.220 0.4843 -52.6 34.813 147.4 0.0137 66.8 0.8363 -25.2 + 0.240 0.4796 -57.0 34.046 144.8 0.0146 66.0 0.8212 -27.1 + 0.260 0.4756 -61.2 33.301 142.4 0.0156 65.1 0.8055 -28.9 + 0.280 0.4718 -65.2 32.558 140.2 0.0165 64.1 0.7890 -30.7 + 0.300 0.4704 -69.2 31.867 137.9 0.0174 63.2 0.7732 -32.5 + 0.320 0.4653 -72.8 31.085 135.9 0.0182 62.4 0.7567 -34.0 + 0.340 0.4620 -76.5 30.343 133.8 0.0190 61.6 0.7408 -35.5 + 0.360 0.4587 -79.9 29.610 131.8 0.0198 61.0 0.7251 -37.0 + 0.380 0.4549 -83.2 28.876 130.0 0.0205 60.3 0.7095 -38.3 + 0.400 0.4526 -86.5 28.174 128.0 0.0212 59.7 0.6944 -39.7 + 0.420 0.4484 -89.5 27.469 126.4 0.0218 59.1 0.6795 -40.9 + 0.440 0.4455 -92.6 26.788 124.7 0.0225 58.6 0.6649 -42.1 + 0.450 0.4445 -94.2 26.456 123.8 0.0228 58.3 0.6577 -42.7 + 0.460 0.4428 -95.6 26.126 123.1 0.0231 58.1 0.6508 -43.2 + 0.480 0.4402 -98.4 25.479 121.5 0.0237 57.6 0.6371 -44.3 + 0.500 0.4387 -101.2 24.851 119.9 0.0243 57.2 0.6236 -45.4 + 0.520 0.4352 -103.6 24.260 118.7 0.0248 56.8 0.6112 -46.3 + 0.540 0.4324 -106.0 23.680 117.3 0.0253 56.5 0.5990 -47.2 + 0.560 0.4305 -108.5 23.114 116.0 0.0259 56.1 0.5869 -48.1 + 0.580 0.4293 -110.9 22.562 114.5 0.0264 55.8 0.5750 -49.1 + 0.600 0.4289 -113.4 22.025 113.0 0.0269 55.5 0.5632 -50.1 + 0.620 0.4265 -115.5 21.531 112.0 0.0274 55.3 0.5528 -50.8 + 0.640 0.4246 -117.6 21.044 110.9 0.0279 55.1 0.5425 -51.5 + 0.660 0.4233 -119.7 20.565 109.7 0.0283 54.9 0.5323 -52.3 + 0.680 0.4226 -121.8 20.094 108.5 0.0288 54.7 0.5222 -53.1 + 0.700 0.4224 -123.9 19.633 107.3 0.0293 54.5 0.5122 -53.9 + 0.720 0.4209 -125.6 19.219 106.4 0.0298 54.4 0.5035 -54.5 + 0.740 0.4198 -127.3 18.810 105.5 0.0302 54.2 0.4949 -55.2 + 0.760 0.4190 -129.0 18.406 104.5 0.0307 54.1 0.4864 -55.8 + 0.780 0.4187 -130.8 18.008 103.5 0.0311 54.0 0.4779 -56.5 + 0.800 0.4187 -132.5 17.616 102.4 0.0316 53.9 0.4695 -57.2 + 0.820 0.4178 -134.0 17.274 101.6 0.0320 53.8 0.4621 -57.7 + 0.840 0.4172 -135.6 16.936 100.8 0.0325 53.7 0.4548 -58.3 + 0.860 0.4169 -137.1 16.602 99.9 0.0329 53.7 0.4475 -58.8 + 0.880 0.4169 -138.7 16.271 99.0 0.0334 53.6 0.4403 -59.4 + 0.900 0.4172 -140.2 15.945 98.1 0.0338 53.5 0.4331 -60.0 + 0.920 0.4167 -141.6 15.653 97.4 0.0342 53.5 0.4267 -60.5 + 0.940 0.4164 -142.9 15.364 96.6 0.0347 53.4 0.4203 -61.1 + 0.960 0.4163 -144.3 15.077 95.8 0.0351 53.4 0.4139 -61.6 + 0.980 0.4165 -145.6 14.794 95.0 0.0356 53.3 0.4076 -62.2 + 1.000 0.4169 -147.0 14.513 94.2 0.0360 53.3 0.4013 -62.8 + 1.020 0.4166 -148.2 14.264 93.6 0.0364 53.3 0.3959 -63.3 + 1.040 0.4165 -149.4 14.018 92.9 0.0369 53.2 0.3905 -63.7 + 1.060 0.4166 -150.5 13.773 92.2 0.0373 53.2 0.3851 -64.2 + 1.080 0.4169 -151.7 13.530 91.5 0.0378 53.1 0.3798 -64.7 + 1.100 0.4173 -152.9 13.289 90.8 0.0382 53.1 0.3745 -65.2 + 1.120 0.4175 -154.0 13.074 90.2 0.0386 53.1 0.3695 -65.7 + 1.140 0.4178 -155.1 12.861 89.6 0.0391 53.1 0.3645 -66.2 + 1.160 0.4182 -156.1 12.650 88.9 0.0395 53.0 0.3596 -66.7 + 1.180 0.4188 -157.2 12.440 88.3 0.0400 53.0 0.3547 -67.2 + 1.200 0.4196 -158.3 12.232 87.6 0.0404 53.0 0.3498 -67.7 + 1.220 0.4197 -159.2 12.047 87.1 0.0408 53.0 0.3455 -68.1 + 1.240 0.4198 -160.2 11.863 86.5 0.0413 52.9 0.3413 -68.6 + 1.260 0.4201 -161.1 11.681 85.9 0.0417 52.9 0.3371 -69.0 + 1.280 0.4205 -162.1 11.499 85.3 0.0422 52.8 0.3329 -69.5 + 1.300 0.4210 -163.0 11.319 84.7 0.0426 52.8 0.3287 -70.0 + 1.320 0.4212 -163.9 11.158 84.2 0.0430 52.7 0.3248 -70.5 + 1.340 0.4215 -164.8 10.997 83.7 0.0435 52.7 0.3210 -70.9 + 1.360 0.4220 -165.6 10.837 83.1 0.0439 52.6 0.3171 -71.4 + 1.380 0.4225 -166.5 10.679 82.6 0.0444 52.6 0.3133 -71.9 + 1.400 0.4231 -167.4 10.521 82.0 0.0448 52.5 0.3095 -72.4 + 1.420 0.4233 -168.2 10.381 81.5 0.0453 52.5 0.3059 -72.8 + 1.440 0.4237 -169.0 10.241 81.0 0.0457 52.4 0.3024 -73.2 + 1.460 0.4241 -169.8 10.102 80.5 0.0462 52.4 0.2989 -73.7 + 1.480 0.4245 -170.6 9.964 80.0 0.0466 52.3 0.2954 -74.1 + 1.500 0.4251 -171.4 9.827 79.5 0.0471 52.3 0.2919 -74.6 + 1.520 0.4256 -172.1 9.702 79.0 0.0476 52.2 0.2888 -75.0 + 1.540 0.4261 -172.9 9.577 78.5 0.0480 52.2 0.2858 -75.5 + 1.560 0.4267 -173.6 9.453 78.0 0.0485 52.1 0.2827 -76.0 + 1.580 0.4274 -174.4 9.330 77.5 0.0489 52.1 0.2797 -76.4 + 1.600 0.4281 -175.1 9.207 77.0 0.0494 52.0 0.2767 -76.9 + 1.620 0.4284 -175.9 9.096 76.6 0.0499 51.9 0.2737 -77.3 + 1.640 0.4287 -176.6 8.986 76.2 0.0503 51.8 0.2707 -77.8 + 1.660 0.4291 -177.4 8.877 75.7 0.0508 51.8 0.2677 -78.2 + 1.680 0.4296 -178.1 8.768 75.3 0.0512 51.7 0.2647 -78.6 + 1.700 0.4302 -178.9 8.659 74.8 0.0517 51.6 0.2618 -79.1 + 1.720 0.4305 -179.5 8.557 74.4 0.0522 51.5 0.2592 -79.5 + 1.740 0.4309 179.9 8.456 73.9 0.0526 51.4 0.2566 -79.9 + 1.760 0.4313 179.3 8.356 73.5 0.0531 51.4 0.2540 -80.3 + 1.780 0.4317 178.7 8.255 73.0 0.0535 51.3 0.2514 -80.8 + 1.800 0.4322 178.1 8.156 72.5 0.0540 51.2 0.2488 -81.2 + 1.820 0.4329 177.4 8.065 72.1 0.0545 51.1 0.2462 -81.7 + 1.840 0.4336 176.7 7.975 71.7 0.0549 51.0 0.2435 -82.3 + 1.860 0.4344 176.1 7.885 71.3 0.0554 51.0 0.2409 -82.8 + 1.880 0.4353 175.4 7.796 70.9 0.0558 50.9 0.2384 -83.4 + 1.900 0.4362 174.7 7.707 70.5 0.0563 50.8 0.2358 -84.0 + 1.920 0.4360 174.1 7.627 70.1 0.0568 50.7 0.2335 -84.4 + 1.940 0.4359 173.6 7.547 69.7 0.0572 50.6 0.2312 -84.7 + 1.960 0.4358 173.0 7.467 69.3 0.0577 50.5 0.2289 -85.1 + 1.980 0.4358 172.5 7.388 68.9 0.0581 50.4 0.2267 -85.5 + 2.000 0.4358 171.9 7.309 68.5 0.0586 50.3 0.2244 -85.9 + 2.020 0.4362 171.3 7.238 68.1 0.0591 50.2 0.2221 -86.4 + 2.040 0.4366 170.7 7.168 67.8 0.0595 50.1 0.2199 -86.9 + 2.060 0.4370 170.1 7.098 67.4 0.0600 50.0 0.2176 -87.3 + 2.080 0.4375 169.5 7.028 67.0 0.0604 49.8 0.2154 -87.9 + 2.100 0.4381 168.9 6.958 66.6 0.0609 49.7 0.2132 -88.4 + 2.120 0.4387 168.3 6.889 66.2 0.0614 49.6 0.2110 -88.9 + 2.140 0.4393 167.8 6.820 65.8 0.0618 49.5 0.2089 -89.4 + 2.160 0.4400 167.2 6.752 65.4 0.0623 49.4 0.2067 -90.0 + 2.180 0.4407 166.6 6.684 64.9 0.0627 49.3 0.2046 -90.5 + 2.200 0.4415 166.0 6.616 64.5 0.0632 49.2 0.2025 -91.1 + 2.220 0.4421 165.4 6.556 64.2 0.0637 49.1 0.2004 -91.6 + 2.240 0.4428 164.9 6.497 63.8 0.0641 48.9 0.1984 -92.2 + 2.260 0.4435 164.3 6.438 63.5 0.0646 48.8 0.1964 -92.7 + 2.280 0.4442 163.8 6.379 63.1 0.0650 48.7 0.1943 -93.3 + 2.300 0.4450 163.2 6.320 62.7 0.0655 48.5 0.1924 -93.9 + 2.320 0.4458 162.7 6.262 62.4 0.0660 48.4 0.1904 -94.4 + 2.340 0.4467 162.1 6.204 62.0 0.0664 48.3 0.1884 -95.0 + 2.360 0.4476 161.6 6.146 61.6 0.0669 48.1 0.1865 -95.6 + 2.380 0.4485 161.0 6.088 61.2 0.0673 48.0 0.1846 -96.3 + 2.400 0.4495 160.5 6.031 60.8 0.0678 47.9 0.1827 -96.9 + 2.420 0.4504 160.0 5.981 60.5 0.0682 47.8 0.1808 -97.5 + 2.440 0.4514 159.5 5.930 60.1 0.0687 47.6 0.1790 -98.1 + 2.460 0.4524 158.9 5.880 59.8 0.0691 47.5 0.1772 -98.8 + 2.480 0.4534 158.4 5.831 59.4 0.0696 47.3 0.1754 -99.4 + 2.500 0.4544 157.9 5.781 59.1 0.0700 47.2 0.1737 -100.1 + 2.520 0.4555 157.4 5.732 58.7 0.0705 47.0 0.1719 -100.8 + 2.540 0.4567 156.9 5.683 58.3 0.0709 46.9 0.1702 -101.4 + 2.560 0.4579 156.4 5.634 58.0 0.0714 46.8 0.1685 -102.2 + 2.580 0.4591 155.9 5.585 57.6 0.0718 46.6 0.1668 -102.9 + 2.600 0.4603 155.4 5.537 57.2 0.0723 46.5 0.1652 -103.6 + 2.620 0.4610 154.9 5.494 56.9 0.0727 46.4 0.1636 -104.3 + 2.640 0.4618 154.5 5.451 56.6 0.0732 46.2 0.1620 -104.9 + 2.660 0.4626 154.0 5.408 56.3 0.0736 46.1 0.1605 -105.6 + 2.680 0.4635 153.5 5.365 55.9 0.0741 45.9 0.1589 -106.3 + 2.700 0.4643 153.1 5.322 55.6 0.0745 45.8 0.1574 -107.0 + 2.720 0.4652 152.6 5.280 55.3 0.0750 45.6 0.1559 -107.7 + 2.740 0.4661 152.2 5.238 54.9 0.0754 45.5 0.1544 -108.4 + 2.760 0.4671 151.7 5.196 54.6 0.0759 45.4 0.1530 -109.2 + 2.780 0.4681 151.3 5.154 54.3 0.0763 45.2 0.1516 -109.9 + 2.800 0.4691 150.8 5.112 53.9 0.0768 45.1 0.1502 -110.7 + 2.820 0.4700 150.4 5.074 53.6 0.0772 44.9 0.1488 -111.4 + 2.840 0.4710 149.9 5.037 53.3 0.0777 44.8 0.1474 -112.2 + 2.860 0.4720 149.5 5.000 53.0 0.0781 44.6 0.1461 -112.9 + 2.880 0.4731 149.1 4.962 52.6 0.0786 44.5 0.1448 -113.7 + 2.900 0.4741 148.6 4.925 52.3 0.0790 44.3 0.1435 -114.5 + 2.920 0.4752 148.2 4.889 52.0 0.0795 44.2 0.1422 -115.3 + 2.940 0.4763 147.8 4.852 51.6 0.0799 44.0 0.1409 -116.1 + 2.960 0.4774 147.3 4.815 51.3 0.0804 43.9 0.1397 -116.9 + 2.980 0.4786 146.9 4.779 51.0 0.0808 43.7 0.1386 -117.7 + 3.000 0.4798 146.5 4.743 50.6 0.0813 43.6 0.1374 -118.6 + 3.100 0.4849 144.3 4.589 49.2 0.0834 42.7 0.1318 -122.9 + 3.200 0.4907 142.2 4.439 47.7 0.0855 41.8 0.1269 -127.6 + 3.300 0.4972 140.2 4.291 46.1 0.0877 41.0 0.1230 -132.7 + 3.400 0.5043 138.1 4.148 44.3 0.0898 40.2 0.1201 -138.0 + 3.500 0.5120 136.2 4.008 42.5 0.0920 39.5 0.1183 -143.5 + 3.600 0.5170 134.3 3.892 41.2 0.0941 38.5 0.1167 -148.5 + 3.700 0.5226 132.5 3.778 39.7 0.0962 37.6 0.1160 -153.7 + 3.800 0.5287 130.7 3.666 38.2 0.0983 36.7 0.1163 -158.8 + 3.900 0.5353 128.9 3.558 36.6 0.1004 35.9 0.1175 -163.9 + 4.000 0.5424 127.2 3.452 34.9 0.1026 35.1 0.1196 -168.9 + 4.100 0.5465 125.7 3.359 33.6 0.1045 34.1 0.1216 -173.2 + 4.200 0.5509 124.3 3.268 32.2 0.1064 33.2 0.1242 -177.3 + 4.300 0.5557 122.9 3.180 30.7 0.1083 32.2 0.1274 178.7 + 4.400 0.5608 121.5 3.093 29.1 0.1103 31.4 0.1313 175.0 + 4.500 0.5662 120.1 3.009 27.5 0.1123 30.5 0.1356 171.5 + 4.600 0.5686 118.9 2.936 26.3 0.1140 29.6 0.1382 168.4 + 4.700 0.5713 117.8 2.863 25.1 0.1158 28.7 0.1411 165.5 + 4.800 0.5742 116.6 2.793 23.8 0.1176 27.8 0.1444 162.6 + 4.900 0.5773 115.5 2.724 22.4 0.1194 27.0 0.1481 160.0 + 5.000 0.5807 114.4 2.656 21.0 0.1213 26.2 0.1520 157.4 + 5.100 0.5834 113.2 2.599 19.8 0.1229 25.3 0.1553 154.9 + 5.200 0.5864 112.0 2.543 18.6 0.1246 24.4 0.1589 152.5 + 5.300 0.5896 110.8 2.489 17.4 0.1263 23.6 0.1628 150.2 + 5.400 0.5931 109.6 2.435 16.1 0.1280 22.7 0.1669 148.0 + 5.500 0.5968 108.4 2.383 14.7 0.1297 21.9 0.1712 145.9 + 5.600 0.6006 107.2 2.338 13.5 0.1313 21.0 0.1751 143.7 + 5.700 0.6046 106.1 2.293 12.3 0.1330 20.2 0.1793 141.6 + 5.800 0.6088 104.9 2.250 11.1 0.1347 19.3 0.1837 139.5 + 5.900 0.6133 103.8 2.208 9.8 0.1364 18.5 0.1884 137.6 + 6.000 0.6180 102.7 2.167 8.4 0.1381 17.7 0.1932 135.8 + 6.100 0.6220 101.6 2.129 7.2 0.1398 16.7 0.1970 133.9 + 6.200 0.6263 100.6 2.092 5.9 0.1415 15.8 0.2011 132.1 + 6.300 0.6308 99.5 2.056 4.6 0.1433 14.9 0.2053 130.4 + 6.400 0.6354 98.5 2.021 3.2 0.1451 14.0 0.2097 128.7 + 6.500 0.6403 97.5 1.987 1.8 0.1469 13.1 0.2143 127.1 + 6.600 0.6433 96.4 1.955 0.5 0.1487 12.1 0.2171 125.3 + 6.800 0.6499 94.3 1.894 -2.1 0.1523 10.3 0.2234 121.9 + 7.000 0.6574 92.2 1.837 -4.9 0.1561 8.5 0.2304 118.6 + 7.200 0.6616 89.9 1.780 -7.5 0.1594 6.2 0.2388 115.5 + 7.400 0.6668 87.7 1.728 -10.3 0.1629 4.1 0.2478 112.7 + 7.600 0.6720 85.3 1.673 -13.1 0.1656 1.8 0.2579 109.7 + 7.800 0.6776 82.7 1.616 -15.9 0.1677 -0.6 0.2692 106.7 + 8.000 0.6845 80.1 1.563 -18.9 0.1701 -2.9 0.2812 104.0 + 8.200 0.6913 77.3 1.503 -21.3 0.1703 -5.1 0.2951 100.5 + 8.400 0.6996 74.6 1.445 -23.9 0.1707 -7.2 0.3101 97.3 + 8.600 0.7110 72.0 1.393 -26.3 0.1710 -9.1 0.3277 94.3 + 8.800 0.7252 69.6 1.345 -28.5 0.1712 -10.6 0.3479 91.4 + 9.000 0.7407 67.2 1.299 -30.9 0.1715 -12.2 0.3688 88.9 + 9.200 0.7617 65.4 1.262 -32.9 0.1721 -13.6 0.3924 87.0 + 9.400 0.7835 63.6 1.226 -35.1 0.1728 -15.1 0.4165 85.3 + 9.600 0.8028 62.1 1.186 -37.2 0.1736 -16.5 0.4389 83.8 + 9.800 0.8195 60.8 1.141 -39.3 0.1744 -18.0 0.4596 82.4 +10.000 0.8367 59.5 1.097 -41.6 0.1753 -19.4 0.4806 81.2 +! +! f NFmin Gammaopt rn/50 +! GHz dB MAG ANG - + 0.900 1.23 0.16 -154 0.13 + 1.800 1.51 0.24 -144 0.13 + 2.400 1.66 0.22 -141 0.15 + 3.000 1.69 0.30 -132 0.16 + 4.000 1.82 0.42 -115 0.23 + 5.000 2.28 0.48 -96 0.37 + 6.000 2.65 0.52 -86 0.56 +! +! (c) 2016 Infineon Technologies AG, Munich diff --git a/Amplifier_BJT/BFP420_w_noise_VCE_4.0V_IC_35mA.s2p b/Amplifier_BJT/BFP420_w_noise_VCE_4.0V_IC_35mA.s2p new file mode 100644 index 0000000..97c10de --- /dev/null +++ b/Amplifier_BJT/BFP420_w_noise_VCE_4.0V_IC_35mA.s2p @@ -0,0 +1,252 @@ +! Infineon Technologies Discrete & RF Semiconductors +! BFP420 +! VCE = 4.0 V, IC = 35 mA +! Common Emitter S-Parameters: Jan 2016 +# GHz S MA R 50 +! f S11 S21 S12 S22 +! GHz MAG ANG MAG ANG MAG ANG MAG ANG + 0.010 0.3361 -2.0 52.000 178.8 0.0012 67.8 0.8916 3.5 + 0.015 0.3397 -4.4 51.267 177.2 0.0014 71.7 0.8999 0.9 + 0.020 0.3438 -6.8 50.573 175.6 0.0017 74.5 0.9099 -1.6 + 0.025 0.3443 -8.6 50.417 174.7 0.0019 73.9 0.9104 -2.4 + 0.030 0.3452 -10.4 50.275 173.8 0.0022 73.4 0.9111 -3.2 + 0.035 0.3464 -12.2 50.146 172.8 0.0024 73.0 0.9120 -4.1 + 0.040 0.3480 -13.9 50.030 171.9 0.0027 72.7 0.9131 -4.9 + 0.045 0.3498 -15.7 49.927 170.9 0.0029 72.4 0.9144 -5.7 + 0.050 0.3520 -17.4 49.838 170.0 0.0032 72.2 0.9158 -6.5 + 0.055 0.3504 -19.3 49.627 169.1 0.0035 72.4 0.9130 -7.3 + 0.060 0.3493 -21.2 49.428 168.2 0.0038 72.6 0.9104 -8.0 + 0.065 0.3485 -23.1 49.242 167.3 0.0040 72.8 0.9079 -8.8 + 0.070 0.3480 -25.0 49.068 166.4 0.0043 73.0 0.9056 -9.6 + 0.075 0.3480 -26.9 48.907 165.4 0.0046 73.1 0.9035 -10.4 + 0.080 0.3484 -28.8 48.759 164.5 0.0049 73.2 0.9015 -11.1 + 0.085 0.3491 -30.7 48.624 163.5 0.0052 73.3 0.8997 -11.9 + 0.090 0.3502 -32.6 48.503 162.6 0.0054 73.4 0.8980 -12.7 + 0.095 0.3517 -34.4 48.394 161.7 0.0057 73.5 0.8966 -13.5 + 0.100 0.3536 -36.3 48.299 160.7 0.0060 73.6 0.8953 -14.3 + 0.105 0.3523 -38.0 47.998 159.9 0.0063 73.2 0.8908 -15.0 + 0.110 0.3513 -39.6 47.707 159.1 0.0065 72.9 0.8865 -15.6 + 0.115 0.3506 -41.3 47.426 158.2 0.0068 72.6 0.8822 -16.3 + 0.120 0.3502 -43.0 47.155 157.4 0.0070 72.3 0.8781 -17.0 + 0.125 0.3501 -44.7 46.894 156.5 0.0073 72.1 0.8742 -17.7 + 0.130 0.3504 -46.3 46.644 155.7 0.0076 71.8 0.8703 -18.4 + 0.135 0.3509 -48.0 46.405 154.8 0.0078 71.6 0.8666 -19.1 + 0.140 0.3517 -49.7 46.177 153.9 0.0081 71.4 0.8630 -19.9 + 0.145 0.3528 -51.3 45.960 153.0 0.0083 71.2 0.8596 -20.6 + 0.150 0.3542 -53.0 45.754 152.1 0.0086 71.0 0.8563 -21.3 + 0.155 0.3535 -54.5 45.431 151.4 0.0088 70.7 0.8511 -21.9 + 0.160 0.3530 -55.9 45.115 150.7 0.0091 70.4 0.8461 -22.4 + 0.165 0.3528 -57.4 44.806 149.9 0.0093 70.1 0.8411 -23.0 + 0.170 0.3528 -58.9 44.505 149.2 0.0095 69.8 0.8362 -23.6 + 0.175 0.3530 -60.3 44.211 148.4 0.0097 69.5 0.8314 -24.2 + 0.180 0.3535 -61.8 43.925 147.7 0.0100 69.3 0.8267 -24.8 + 0.185 0.3542 -63.3 43.647 146.9 0.0102 69.1 0.8221 -25.4 + 0.190 0.3551 -64.7 43.378 146.1 0.0104 68.8 0.8176 -26.0 + 0.195 0.3562 -66.2 43.116 145.3 0.0107 68.6 0.8131 -26.7 + 0.200 0.3576 -67.6 42.863 144.5 0.0109 68.4 0.8088 -27.3 + 0.220 0.3555 -72.8 41.528 141.8 0.0117 67.4 0.7880 -29.3 + 0.240 0.3563 -78.1 40.289 139.0 0.0125 66.5 0.7683 -31.4 + 0.260 0.3576 -83.0 39.102 136.4 0.0133 65.7 0.7485 -33.3 + 0.280 0.3586 -87.5 37.935 134.0 0.0140 65.0 0.7285 -35.1 + 0.300 0.3618 -92.0 36.836 131.5 0.0147 64.3 0.7092 -36.9 + 0.320 0.3616 -96.0 35.692 129.5 0.0153 63.7 0.6903 -38.4 + 0.340 0.3631 -99.9 34.595 127.4 0.0160 63.2 0.6718 -39.9 + 0.360 0.3646 -103.6 33.539 125.4 0.0166 62.7 0.6542 -41.3 + 0.380 0.3656 -106.9 32.513 123.6 0.0172 62.2 0.6373 -42.6 + 0.400 0.3679 -110.2 31.524 121.6 0.0178 61.8 0.6207 -43.9 + 0.420 0.3680 -113.2 30.582 120.0 0.0183 61.5 0.6051 -44.9 + 0.440 0.3692 -116.1 29.663 118.4 0.0188 61.2 0.5898 -46.0 + 0.450 0.3701 -117.6 29.214 117.5 0.0191 61.0 0.5822 -46.6 + 0.460 0.3702 -118.9 28.788 116.8 0.0194 60.9 0.5752 -47.1 + 0.480 0.3710 -121.5 27.950 115.3 0.0199 60.7 0.5613 -48.1 + 0.500 0.3725 -124.1 27.132 113.7 0.0204 60.5 0.5475 -49.1 + 0.520 0.3725 -126.3 26.404 112.6 0.0209 60.3 0.5357 -49.8 + 0.540 0.3730 -128.5 25.688 111.4 0.0214 60.2 0.5239 -50.6 + 0.560 0.3741 -130.7 24.983 110.1 0.0218 60.1 0.5123 -51.4 + 0.580 0.3758 -132.9 24.291 108.7 0.0223 59.9 0.5007 -52.3 + 0.600 0.3780 -135.1 23.614 107.3 0.0228 59.8 0.4893 -53.2 + 0.620 0.3784 -136.9 23.035 106.4 0.0233 59.8 0.4798 -53.8 + 0.640 0.3791 -138.6 22.462 105.4 0.0238 59.8 0.4703 -54.4 + 0.660 0.3802 -140.4 21.896 104.3 0.0242 59.7 0.4609 -55.0 + 0.680 0.3816 -142.1 21.338 103.2 0.0247 59.7 0.4516 -55.7 + 0.700 0.3834 -143.8 20.788 102.1 0.0252 59.7 0.4423 -56.4 + 0.720 0.3836 -145.3 20.317 101.3 0.0257 59.7 0.4346 -56.9 + 0.740 0.3841 -146.7 19.851 100.4 0.0261 59.7 0.4269 -57.5 + 0.760 0.3849 -148.2 19.389 99.5 0.0266 59.7 0.4192 -58.0 + 0.780 0.3859 -149.7 18.932 98.6 0.0270 59.7 0.4116 -58.6 + 0.800 0.3871 -151.1 18.481 97.6 0.0275 59.7 0.4040 -59.2 + 0.820 0.3878 -152.3 18.100 96.9 0.0280 59.7 0.3976 -59.7 + 0.840 0.3887 -153.6 17.722 96.1 0.0284 59.7 0.3912 -60.2 + 0.860 0.3898 -154.8 17.347 95.4 0.0289 59.7 0.3848 -60.7 + 0.880 0.3911 -156.0 16.976 94.5 0.0293 59.7 0.3784 -61.2 + 0.900 0.3925 -157.2 16.608 93.7 0.0298 59.7 0.3721 -61.7 + 0.920 0.3932 -158.3 16.289 93.1 0.0303 59.7 0.3665 -62.2 + 0.940 0.3940 -159.4 15.971 92.4 0.0308 59.7 0.3609 -62.7 + 0.960 0.3950 -160.5 15.656 91.7 0.0312 59.7 0.3553 -63.2 + 0.980 0.3961 -161.5 15.344 91.0 0.0317 59.7 0.3498 -63.7 + 1.000 0.3974 -162.6 15.034 90.2 0.0322 59.7 0.3443 -64.3 + 1.020 0.3979 -163.5 14.766 89.6 0.0327 59.7 0.3396 -64.7 + 1.040 0.3986 -164.5 14.499 89.0 0.0332 59.7 0.3350 -65.1 + 1.060 0.3993 -165.4 14.233 88.4 0.0336 59.7 0.3303 -65.6 + 1.080 0.4002 -166.3 13.970 87.8 0.0341 59.7 0.3257 -66.0 + 1.100 0.4011 -167.2 13.708 87.1 0.0346 59.7 0.3211 -66.5 + 1.120 0.4020 -168.1 13.479 86.6 0.0351 59.7 0.3168 -67.0 + 1.140 0.4029 -168.9 13.252 86.0 0.0356 59.6 0.3125 -67.5 + 1.160 0.4040 -169.8 13.025 85.4 0.0360 59.6 0.3082 -68.0 + 1.180 0.4052 -170.6 12.800 84.8 0.0365 59.5 0.3040 -68.5 + 1.200 0.4064 -171.5 12.577 84.2 0.0370 59.5 0.2998 -69.0 + 1.220 0.4070 -172.2 12.381 83.7 0.0375 59.5 0.2962 -69.4 + 1.240 0.4077 -173.0 12.187 83.2 0.0380 59.4 0.2926 -69.8 + 1.260 0.4085 -173.7 11.993 82.6 0.0385 59.4 0.2890 -70.2 + 1.280 0.4093 -174.5 11.800 82.1 0.0390 59.3 0.2854 -70.7 + 1.300 0.4102 -175.2 11.609 81.5 0.0395 59.3 0.2819 -71.1 + 1.320 0.4110 -175.9 11.439 81.0 0.0400 59.2 0.2786 -71.6 + 1.340 0.4119 -176.6 11.270 80.5 0.0405 59.2 0.2752 -72.0 + 1.360 0.4129 -177.4 11.102 80.0 0.0409 59.1 0.2719 -72.5 + 1.380 0.4139 -178.1 10.935 79.5 0.0414 59.1 0.2687 -73.0 + 1.400 0.4150 -178.8 10.769 79.0 0.0419 59.0 0.2654 -73.5 + 1.420 0.4155 -179.4 10.622 78.6 0.0424 58.9 0.2624 -73.9 + 1.440 0.4160 179.9 10.475 78.1 0.0429 58.8 0.2593 -74.3 + 1.460 0.4166 179.3 10.330 77.7 0.0434 58.8 0.2563 -74.8 + 1.480 0.4173 178.6 10.184 77.2 0.0439 58.7 0.2533 -75.2 + 1.500 0.4180 178.0 10.040 76.7 0.0444 58.6 0.2503 -75.7 + 1.520 0.4188 177.4 9.909 76.3 0.0449 58.5 0.2476 -76.1 + 1.540 0.4196 176.8 9.779 75.9 0.0454 58.4 0.2450 -76.6 + 1.560 0.4205 176.3 9.649 75.4 0.0459 58.4 0.2423 -77.0 + 1.580 0.4214 175.7 9.520 75.0 0.0464 58.3 0.2397 -77.5 + 1.600 0.4224 175.1 9.391 74.5 0.0469 58.2 0.2371 -78.0 + 1.620 0.4228 174.5 9.276 74.1 0.0474 58.1 0.2345 -78.5 + 1.640 0.4233 173.8 9.162 73.7 0.0479 58.0 0.2320 -78.9 + 1.660 0.4239 173.2 9.049 73.3 0.0484 57.9 0.2294 -79.4 + 1.680 0.4245 172.5 8.936 72.8 0.0489 57.8 0.2269 -79.9 + 1.700 0.4251 171.9 8.823 72.4 0.0494 57.7 0.2244 -80.4 + 1.720 0.4256 171.4 8.718 72.0 0.0499 57.6 0.2221 -80.8 + 1.740 0.4262 170.9 8.614 71.6 0.0504 57.5 0.2199 -81.2 + 1.760 0.4268 170.4 8.510 71.2 0.0509 57.3 0.2176 -81.6 + 1.780 0.4274 169.9 8.406 70.7 0.0514 57.2 0.2154 -82.1 + 1.800 0.4281 169.4 8.303 70.3 0.0519 57.1 0.2132 -82.5 + 1.820 0.4290 168.9 8.210 69.9 0.0524 57.0 0.2109 -83.1 + 1.840 0.4299 168.3 8.116 69.6 0.0529 56.9 0.2086 -83.6 + 1.860 0.4309 167.8 8.024 69.2 0.0534 56.7 0.2063 -84.2 + 1.880 0.4319 167.2 7.931 68.8 0.0539 56.6 0.2040 -84.8 + 1.900 0.4329 166.7 7.839 68.4 0.0544 56.5 0.2018 -85.4 + 1.920 0.4330 166.2 7.757 68.0 0.0549 56.4 0.1998 -85.8 + 1.940 0.4332 165.7 7.674 67.7 0.0554 56.2 0.1979 -86.2 + 1.960 0.4333 165.2 7.593 67.3 0.0559 56.1 0.1959 -86.6 + 1.980 0.4336 164.7 7.511 66.9 0.0564 55.9 0.1939 -87.0 + 2.000 0.4338 164.2 7.430 66.5 0.0569 55.8 0.1920 -87.4 + 2.020 0.4344 163.7 7.358 66.2 0.0574 55.6 0.1900 -87.9 + 2.040 0.4350 163.2 7.285 65.8 0.0579 55.5 0.1881 -88.4 + 2.060 0.4356 162.7 7.213 65.5 0.0584 55.4 0.1861 -89.0 + 2.080 0.4363 162.1 7.142 65.1 0.0589 55.2 0.1842 -89.5 + 2.100 0.4370 161.6 7.070 64.7 0.0594 55.1 0.1823 -90.1 + 2.120 0.4378 161.1 6.999 64.4 0.0599 54.9 0.1804 -90.7 + 2.140 0.4385 160.6 6.928 64.0 0.0604 54.8 0.1785 -91.3 + 2.160 0.4394 160.1 6.858 63.6 0.0609 54.7 0.1767 -91.9 + 2.180 0.4402 159.6 6.788 63.2 0.0614 54.5 0.1748 -92.5 + 2.200 0.4411 159.1 6.718 62.8 0.0619 54.4 0.1730 -93.1 + 2.220 0.4417 158.6 6.657 62.5 0.0624 54.2 0.1712 -93.7 + 2.240 0.4423 158.1 6.597 62.2 0.0629 54.0 0.1694 -94.3 + 2.260 0.4430 157.7 6.536 61.8 0.0634 53.9 0.1677 -94.9 + 2.280 0.4437 157.2 6.476 61.5 0.0639 53.7 0.1659 -95.5 + 2.300 0.4444 156.7 6.417 61.1 0.0643 53.5 0.1642 -96.2 + 2.320 0.4452 156.3 6.357 60.8 0.0648 53.3 0.1625 -96.8 + 2.340 0.4460 155.8 6.298 60.4 0.0653 53.2 0.1608 -97.5 + 2.360 0.4468 155.3 6.238 60.1 0.0658 53.0 0.1591 -98.2 + 2.380 0.4476 154.9 6.180 59.7 0.0663 52.9 0.1575 -98.9 + 2.400 0.4485 154.4 6.121 59.3 0.0668 52.7 0.1559 -99.6 + 2.420 0.4495 154.0 6.070 59.0 0.0673 52.5 0.1543 -100.3 + 2.440 0.4506 153.5 6.018 58.6 0.0678 52.4 0.1527 -101.0 + 2.460 0.4517 153.1 5.967 58.3 0.0682 52.2 0.1512 -101.7 + 2.480 0.4528 152.6 5.916 58.0 0.0687 52.0 0.1497 -102.4 + 2.500 0.4540 152.2 5.866 57.6 0.0692 51.9 0.1482 -103.2 + 2.520 0.4551 151.7 5.815 57.3 0.0697 51.7 0.1467 -103.9 + 2.540 0.4563 151.3 5.765 56.9 0.0702 51.6 0.1453 -104.7 + 2.560 0.4576 150.9 5.715 56.5 0.0706 51.4 0.1439 -105.5 + 2.580 0.4588 150.4 5.665 56.2 0.0711 51.3 0.1425 -106.3 + 2.600 0.4601 150.0 5.616 55.8 0.0716 51.1 0.1411 -107.1 + 2.620 0.4609 149.6 5.572 55.5 0.0721 50.9 0.1397 -107.9 + 2.640 0.4618 149.2 5.528 55.2 0.0726 50.7 0.1384 -108.6 + 2.660 0.4627 148.8 5.484 54.9 0.0730 50.6 0.1370 -109.4 + 2.680 0.4635 148.4 5.440 54.6 0.0735 50.4 0.1357 -110.2 + 2.700 0.4645 148.0 5.396 54.3 0.0740 50.2 0.1345 -111.0 + 2.720 0.4654 147.6 5.353 53.9 0.0745 50.1 0.1332 -111.8 + 2.740 0.4664 147.2 5.310 53.6 0.0750 49.9 0.1320 -112.7 + 2.760 0.4674 146.8 5.267 53.3 0.0754 49.7 0.1308 -113.5 + 2.780 0.4684 146.4 5.224 52.9 0.0759 49.6 0.1296 -114.4 + 2.800 0.4694 146.0 5.181 52.6 0.0764 49.4 0.1285 -115.3 + 2.820 0.4704 145.6 5.143 52.3 0.0769 49.2 0.1274 -116.1 + 2.840 0.4715 145.2 5.105 52.0 0.0774 49.0 0.1262 -117.0 + 2.860 0.4726 144.8 5.068 51.7 0.0778 48.8 0.1252 -117.8 + 2.880 0.4737 144.5 5.030 51.4 0.0783 48.7 0.1241 -118.7 + 2.900 0.4748 144.1 4.993 51.1 0.0788 48.5 0.1231 -119.6 + 2.920 0.4759 143.7 4.956 50.8 0.0793 48.3 0.1221 -120.5 + 2.940 0.4771 143.3 4.919 50.5 0.0798 48.1 0.1211 -121.4 + 2.960 0.4783 142.9 4.882 50.2 0.0802 47.9 0.1202 -122.4 + 2.980 0.4795 142.6 4.846 49.8 0.0807 47.8 0.1193 -123.3 + 3.000 0.4807 142.2 4.809 49.5 0.0812 47.6 0.1184 -124.3 + 3.100 0.4863 140.2 4.653 48.1 0.0834 46.6 0.1141 -129.3 + 3.200 0.4924 138.3 4.501 46.7 0.0856 45.6 0.1108 -134.7 + 3.300 0.4991 136.5 4.351 45.1 0.0879 44.6 0.1085 -140.4 + 3.400 0.5062 134.7 4.205 43.5 0.0902 43.7 0.1073 -146.2 + 3.500 0.5139 132.9 4.062 41.7 0.0925 42.9 0.1072 -152.1 + 3.600 0.5190 131.1 3.944 40.4 0.0946 41.9 0.1072 -157.5 + 3.700 0.5246 129.4 3.828 39.0 0.0968 40.8 0.1081 -162.8 + 3.800 0.5307 127.7 3.715 37.5 0.0990 39.9 0.1099 -167.9 + 3.900 0.5372 126.1 3.605 35.9 0.1012 39.0 0.1126 -172.9 + 4.000 0.5442 124.5 3.497 34.2 0.1035 38.1 0.1161 -177.6 + 4.100 0.5483 123.1 3.403 32.9 0.1054 37.0 0.1192 178.3 + 4.200 0.5527 121.8 3.311 31.6 0.1074 36.0 0.1229 174.4 + 4.300 0.5574 120.5 3.222 30.2 0.1094 35.0 0.1272 170.8 + 4.400 0.5623 119.2 3.134 28.7 0.1114 34.0 0.1319 167.4 + 4.500 0.5676 117.9 3.048 27.1 0.1135 33.1 0.1370 164.3 + 4.600 0.5701 116.8 2.974 25.9 0.1153 32.1 0.1403 161.5 + 4.700 0.5728 115.7 2.902 24.7 0.1172 31.2 0.1438 158.9 + 4.800 0.5757 114.7 2.831 23.5 0.1190 30.3 0.1477 156.3 + 4.900 0.5787 113.6 2.761 22.1 0.1210 29.4 0.1518 154.0 + 5.000 0.5820 112.6 2.693 20.7 0.1229 28.5 0.1562 151.7 + 5.100 0.5849 111.4 2.635 19.6 0.1246 27.5 0.1599 149.4 + 5.200 0.5880 110.3 2.579 18.4 0.1263 26.6 0.1639 147.2 + 5.300 0.5913 109.1 2.524 17.1 0.1281 25.7 0.1682 145.1 + 5.400 0.5949 108.0 2.470 15.8 0.1299 24.9 0.1726 143.2 + 5.500 0.5987 106.9 2.417 14.5 0.1317 24.0 0.1772 141.3 + 5.600 0.6026 105.8 2.371 13.3 0.1334 23.1 0.1815 139.3 + 5.700 0.6067 104.7 2.326 12.1 0.1351 22.2 0.1860 137.3 + 5.800 0.6111 103.6 2.283 10.9 0.1368 21.3 0.1907 135.5 + 5.900 0.6157 102.5 2.240 9.6 0.1386 20.4 0.1955 133.8 + 6.000 0.6205 101.4 2.199 8.2 0.1404 19.6 0.2006 132.1 + 6.100 0.6244 100.4 2.160 7.0 0.1421 18.6 0.2047 130.3 + 6.200 0.6285 99.4 2.122 5.7 0.1438 17.6 0.2089 128.7 + 6.300 0.6328 98.4 2.085 4.4 0.1456 16.6 0.2133 127.0 + 6.400 0.6373 97.4 2.050 3.1 0.1474 15.6 0.2179 125.5 + 6.500 0.6420 96.4 2.015 1.7 0.1493 14.7 0.2226 124.0 + 6.600 0.6450 95.3 1.983 0.5 0.1511 13.7 0.2255 122.3 + 6.800 0.6517 93.2 1.921 -2.1 0.1547 11.7 0.2320 119.0 + 7.000 0.6593 91.2 1.864 -4.9 0.1586 9.8 0.2392 115.9 + 7.200 0.6636 89.0 1.807 -7.5 0.1619 7.5 0.2476 113.0 + 7.400 0.6688 86.8 1.753 -10.3 0.1654 5.3 0.2566 110.2 + 7.600 0.6739 84.4 1.697 -13.0 0.1682 2.9 0.2668 107.4 + 7.800 0.6792 81.9 1.639 -15.8 0.1703 0.5 0.2782 104.6 + 8.000 0.6858 79.4 1.584 -18.7 0.1727 -1.9 0.2902 102.0 + 8.200 0.6929 76.7 1.523 -21.1 0.1728 -4.1 0.3043 98.7 + 8.400 0.7014 74.0 1.466 -23.8 0.1732 -6.2 0.3194 95.6 + 8.600 0.7130 71.5 1.413 -26.2 0.1735 -8.1 0.3370 92.7 + 8.800 0.7273 69.0 1.364 -28.3 0.1737 -9.8 0.3572 90.0 + 9.000 0.7428 66.7 1.317 -30.6 0.1740 -11.4 0.3781 87.6 + 9.200 0.7640 64.9 1.279 -32.6 0.1746 -12.8 0.4017 85.7 + 9.400 0.7859 63.1 1.243 -34.8 0.1753 -14.3 0.4258 84.1 + 9.600 0.8052 61.6 1.202 -36.9 0.1760 -15.7 0.4481 82.6 + 9.800 0.8218 60.3 1.156 -39.0 0.1768 -17.2 0.4687 81.2 +10.000 0.8388 59.1 1.112 -41.3 0.1777 -18.7 0.4895 80.0 +! +! f NFmin Gammaopt rn/50 +! GHz dB MAG ANG - + 0.900 1.64 0.30 -155 0.13 + 1.800 1.90 0.37 -142 0.15 + 2.400 2.10 0.34 -134 0.19 + 3.000 2.11 0.40 -126 0.22 + 4.000 2.25 0.50 -110 0.35 + 5.000 2.73 0.54 -94 0.59 + 6.000 3.16 0.59 -82 0.84 +! +! (c) 2016 Infineon Technologies AG, Munich diff --git a/Amplifier_BJT/Infineon_rf_trans.lib b/Amplifier_BJT/Infineon_rf_trans.lib new file mode 100644 index 0000000..4af7b90 --- /dev/null +++ b/Amplifier_BJT/Infineon_rf_trans.lib @@ -0,0 +1,6317 @@ +******************************************************************* +* +* INFINEON SPICE MODEL LIBRARY for RF TRANSISTORS +* +* Version 2.1 +* Date 2016/04/06 +* +* Copyright (C) 2016 by Infineon Technologies AG, Neubiberg, Germany +* all rights reserved +* +* +* This library contains the following RF Transistor models: +* +* BFP181 BFP620F BFP843 +* BFP182W BFP640 BFP843F +* BFP183 BFP640ESD BFQ19S +* BFP183W BFP640F BFQ790 +* BFP193 BFP640FESD BFR106 +* BFP193W BFP650 BFR181W +* BFP196 BFP720 BFR182 +* BFP196W BFP720ESD BFR182W +* BFP405 BFP720F BFR193F +* BFP405F BFP720FESD BFR193W +* BFP410 BFP740 BFR340F +* BFP420 BFP740ESD BFR35AP +* BFP420F BFP740F BFR380F +* BFP450 BFP740FESD BFR740L3RH +* BFP460 BFP750 BFR840L3RHESD +* BFP520 BFP760 BFR843EL3 +* BFP540 BFP780 BFR92P +* BFP540ESD BFP840ESD BFR93A +* BFP540FESD BFP840FESD BFR93AW +* BFP620 BFP842ESD +* +******************************************************************* + + +.options gmin=1E-12 TNOM = 25 + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFP181 <<< +* (C) 2013 Infineon Technologies AG +* Version 2.2 April 2016 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP181 C B E1 E2 +.SUBCKT BFP181 11 22 31 32 +* +* +CBEPAR 2 3 2.314E-013 +CBCPAR 2 1 1.606E-013 +CCEPAR 1 3 7.249E-014 +LE 33 30 1.346E-010 +LB 22 20 6.47E-011 +LC 1 11 5.33E-010 +CBEPCK 20 30 3E-014 +CBCPCK 20 1 1E-015 +CCEPCK 1 30 2.871E-013 +LBI 20 2 1.594E-009 +LEI 30 3 1.265E-010 +* +* +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +Q1 1 2 3 M_BFP181 +* +.MODEL M_BFP181 NPN( ++ TNOM = 25 ++ IS = 8.27E-017 ++ BF = 128.4 ++ NF = 0.9958 ++ VAF = 94.57 ++ IKF = 0.5163 ++ ISE = 3.852E-016 ++ NE = 1.699 ++ BR = 26.32 ++ NR = 0.9952 ++ VAR = 3 ++ IKR = 0.02057 ++ ISC = 1.353E-016 ++ NC = 1.098 ++ RB = 15.88 ++ IRB = 0 ++ RBM = 0.5682 ++ RE = 0.7453 ++ RC = 5.362 ++ XTB = 1 ++ EG = 1.1 ++ XTI = 8 ++ CJE = 3.607E-013 ++ VJE = 0.9 ++ MJE = 0.415 ++ TF = 1.235E-011 ++ XTF = 709.4 ++ VTF = 2.139 ++ ITF = 0.5259 ++ PTF = 0.01612 ++ CJC = 1.107E-013 ++ VJC = 0.65 ++ MJC = 0.415 ++ XCJC = 0.8 ++ TR = 1.0e-9 ++ CJS = 0 ++ MJS = 0.415 ++ VJS = 0.6 ++ FC = 0.9999 ++ KF = 0 ++ AF = 1.5) +*************************************************************** +* +* +.ENDS BFP181 + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFP182W <<< +* (C) 2016 Infineon Technologies AG +* Version 2.2 April 2016 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP182W 11 22 31 32 +.SUBCKT BFP182W 11 22 31 32 +* +CBEPAR 2 3 1.845E-013 +CBCPAR 2 1 1.214E-013 +CCEPAR 1 3 2.612E-013 +LE 33 30 5.704E-011 +LB 22 20 3.238E-010 +LC 11 1 1.528E-010 +CBEPCK 20 30 4.385E-014 +CBCPCK 20 1 5.938E-014 +CCEPCK 1 30 7.835E-014 +LBI 20 2 5.789E-010 +LEI 30 3 2.496E-010 +* +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +Q1 1 2 3 M_BFP182W +* +.MODEL M_BFP182W NPN( ++ TNOM = 25 ++ IS = 1.385E-016 ++ BF = 116.3 ++ NF = 0.9927 ++ VAF = 59.54 ++ IKF = 0.1362 ++ ISE = 1.248E-015 ++ NE = 1.696 ++ BR = 12.93 ++ NR = 1.043 ++ VAR = 5.459 ++ IKR = 0.05998 ++ ISC = 4.797E-013 ++ NC = 1.7 ++ RB = 4.23122 ++ IRB = 0.0004044 ++ RBM = 2.86606 ++ RE = 0.1114 ++ RC = 0.2108 ++ XTB = 1.303 ++ EG = 1.11 ++ XTI = 6.548 ++ CJE = 6.822E-013 ++ VJE = 1.29 ++ MJE = 0.512 ++ TF = 1.61578E-011 ++ XTF = 42.7588 ++ VTF = 0.207506 ++ ITF = 0.0531166 ++ PTF = 2.186 ++ CJC = 2.333E-013 ++ VJC = 0.5457 ++ MJC = 0.303 ++ XCJC = 0.1928 ++ TR = 6.21733E-009 ++ CJS = 0 ++ MJS = 0 ++ VJS = 0.4215 ++ FC = 0.9999 ++ KF = 0 ++ AF = 1) +*************************************************************** +* +* +.ENDS BFP182W + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFP183 <<< +* (C) 2013 Infineon Technologies AG +* Version 2.1 March 2014 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +* BFP183 C B E1 E2 +.SUBCKT BFP183 11 22 31 32 +* +* +CBEPAR 2 3 3.545E-013 +CBCPAR 2 1 2.832E-013 +CCEPAR 1 3 2.011E-013 +LE 33 30 1.026E-010 +LB 22 20 3.288E-010 +LC 1 11 5.596E-010 +CBEPCK 20 30 3.624E-014 +CBCPCK 20 1 2.731E-015 +CCEPCK 1 30 2.011E-013 +LBI 20 2 1.272E-009 +LEI 30 3 2.344E-010 +* +* +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +Q1 1 2 3 M_BFP183 +* +.MODEL M_BFP183 NPN( ++ TNOM = 25 ++ IS = 2.544E-016 ++ BF = 113.5 ++ NF = 1 ++ VAF = 63.03 ++ IKF = 0.1272 ++ ISE = 1.556E-015 ++ NE = 1.759 ++ BR = 5.978 ++ NR = 1.003 ++ VAR = 4.361 ++ IKR = 0.4623 ++ ISC = 1E-015 ++ NC = 1.473 ++ RB = 3.834 ++ IRB = 0 ++ RBM = 0.9 ++ RE = 0.2246 ++ RC = 3.279 ++ XTB = 1.303 ++ EG = 1.1 ++ XTI = 8.31 ++ CJE = 1.055E-012 ++ VJE = 0.9 ++ MJE = 0.415 ++ TF = 1.387E-011 ++ XTF = 31.05 ++ VTF = 3.031 ++ ITF = 0.3385 ++ PTF = 0.0003821 ++ CJC = 2.868E-013 ++ VJC = 0.612 ++ MJC = 0.4365 ++ XCJC = 0.8098 ++ TR = 6.038E-008 ++ CJS = 0 ++ MJS = 0.7041 ++ VJS = 2.097 ++ FC = 0.9999 ++ KF = 8.931E-017 ++ AF = 1.512) +*************************************************************** +* +.ENDS BFP183 + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFP183W <<< +* (C) 2016 Infineon Technologies AG +* Version 3.3 April 2016 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +* BFP183W C B E1 E2 +.SUBCKT BFP183W 11 22 31 32 +* +* +CBEPAR 2 3 4.752E-013 +CBCPAR 2 1 1.16E-013 +CCEPAR 1 3 3.745E-013 +LE 33 30 5.704E-011 +LB 22 20 3.238E-010 +LC 1 11 1.528E-010 +CBEPCK 20 30 4.385E-014 +CBCPCK 20 1 5.938E-014 +CCEPCK 1 30 1E-015 +LBI 20 2 5.789E-010 +LEI 30 3 2.496E-010 +* +* +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +Q1 1 2 3 M_BFR183W +* +.MODEL M_BFR183W NPN( ++ TNOM = 25 ++ IS = 4.0555E-016 ++ BF = 120.16 ++ NF = 1.013 ++ VAF = 69.8779 ++ IKF = 1.08187 ++ ISE = 3.85884E-015 ++ NE = 1.67 ++ BR = 9 ++ NR = 0.931634 ++ VAR = 3.337 ++ IKR = 0.1093 ++ ISC = 1.07227E-014 ++ NC = 1.76405 ++ RB = 2.47805 ++ IRB = 0 ++ RBM = 1.74561 ++ RE = 0.137736 ++ RC = 0.1525 ++ XTB = 1.303 ++ EG = 1.11 ++ XTI = 6.548 ++ CJE = 8.748E-013 ++ VJE = 1.196 ++ MJE = 0.6807 ++ TF = 1.40184E-011 ++ XTF = 16.6968 ++ VTF = 2.133 ++ ITF = 0.3481 ++ PTF = 0.07461 ++ CJC = 4.429E-013 ++ VJC = 0.6178 ++ MJC = 0.3175 ++ XCJC = 1 ++ TR = 1.7E-008 ++ CJS = 0 ++ MJS = 1 ++ VJS = 1 ++ FC = 0.9999 ++ KF = 8.931E-017 ++ AF = 1.512) +*************************************************************** +* +.ENDS BFP183W + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP193 <<< +* (C) 2016 Infineon Technologies AG +* Version 3.1 March 2016 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-15 +*BFP193 C B E1 E2 + +.SUBCKT BFP193 11 22 31 32 +CBEPAR 2 3 1.023E-012 +CBCPAR 2 1 1.67E-013 +CCEPAR 1 3 2.794E-013 +LE 33 30 2.004E-010 +LB 22 20 5.79E-010 +LC 1 11 4.811E-010 +CBEPCK 20 30 2.663E-014 +CBCPCK 20 1 1.784E-014 +CCEPCK 1 30 5.078E-015 +LBI 20 2 7.03384E-010 +LEI 30 3 3.26016E-010 +* +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +Q1 1 2 3 M_BFP193 +* +.MODEL M_BFP193 NPN( ++ TNOM= 25 ++ IS = 1.264E-016 ++ BF = 95.69 ++ NF = 0.9534 ++ VAF = 24 ++ IKF = 0.4339 ++ ISE = 5.313E-014 ++ NE = 1.935 ++ BR = 14.27 ++ NR = 1.429 ++ VAR = 3.874 ++ IKR = 0.03792 ++ ISC = 3.741E-017 ++ NC = 0.9437 ++ RB = 1.37 ++ IRB = 0.0009176 ++ RBM = 0.8324 ++ RE = 0.2085 ++ RC = 0.1194 ++ XTB = 1.303 ++ EG = 1.09 ++ XTI = 6.548 ++ CJE = 1.762E-012 ++ VJE = 0.8064 ++ MJE = 0.434 ++ TF = 1.635E-011 ++ XTF = 7.184 ++ VTF = 0.06635 ++ ITF = 0.1963 ++ PTF = 0.07041 ++ CJC = 8.907E-013 ++ VJC = 0.3925 ++ MJC = 0.2534 ++ XCJC= 0.6394 ++ TR = 1.63E-008 ++ CJS = 0 ++ MJS = 0.99 ++ VJS = 1 ++ FC = 0.6174 ++ KF = 8.931E-017 ++ AF = 1.512) +*************************************************************** +* +* +.ENDS BFP193 + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFP193W <<< +* (C) 2016 Infineon Technologies AG +* Version 2.2 March 2016 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-15 +*BFP193W C B E1 E2 +.SUBCKT BFP193W 11 22 31 32 +* +* +CBEPAR 2 3 5.305E-013 +CBCPAR 2 1 3.725E-013 +CCEPAR 1 3 3.333E-013 +LE 33 30 3.217E-011 +LB 22 20 3.73E-011 +LC 1 11 2.011E-010 +CBEPCK 20 30 2E-014 +CBCPCK 20 1 4E-014 +CCEPCK 1 30 6E-014 +LBI 20 2 7.443E-010 +LEI 30 3 3.388E-010 +* +* +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +* +Q1 1 2 3 M_BFP193W +* +.MODEL M_BFP193W NPN ( ++ TNOM= 25 ++ IS = 4.669E-016 ++ BF = 126.1 ++ NF = 0.9936 ++ VAF = 64.55 ++ IKF = 0.6219 ++ ISE = 3.166E-015 ++ NE = 1.767 ++ BR = 9 ++ NR = 1.025 ++ VAR = 3.214 ++ IKR = 0.075 ++ ISC = 8E-015 ++ NC = 2 ++ RB = 2.885 ++ IRB = 0 ++ RBM = 0.8613 ++ RE = 0.2616 ++ RC = 3.134 ++ XTB = 1.303 ++ EG = 1.09 ++ XTI = 6.548 ++ CJE = 2.221E-012 ++ VJE = 0.8816 ++ MJE = 0.3741 ++ TF = 1.383E-011 ++ XTF = 179.9 ++ VTF = 3.031 ++ ITF = 2.081 ++ PTF = 0.0397 ++ CJC = 5.633E-013 ++ VJC = 0.5935 ++ MJC = 0.3526 ++ XCJC= 1 ++ TR = 1.48E-008 ++ CJS = 0 ++ MJS = 0 ++ VJS = 0.7597 ++ FC = 0.9999 ++ KF = 8.931E-017 ++ AF = 1) +*************************************************************** +* +* +.ENDS BFP193W + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFP196 <<< +* (C) 2014 Infineon Technologies AG +* Version 2.1 March 2014 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP196 11 22 31 32 +.SUBCKT BFP196 11 22 31 32 +* +CBEPAR 2 3 7.236E-013 +CBCPAR 2 1 5.761E-013 +CCEPAR 1 3 1.43E-013 +LE 33 30 2.471E-010 +LB 22 20 3.37E-011 +LC 11 1 4.631E-010 +CBEPCK 20 30 1.5E-013 +CBCPCK 20 1 3E-014 +CCEPCK 1 30 1.832E-013 +LBI 20 2 1.414E-009 +LEI 30 3 2.766E-010 +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +Q1 1 2 3 M_BFP196 +* +.MODEL M_BFP196 NPN( ++ TNOM = 25 ++ IS = 9.366E-016 ++ BF = 107.7 ++ NF = 1 ++ VAF = 53.01 ++ IKF = 0.7147 ++ ISE = 6.616E-015 ++ NE = 1.888 ++ BR = 9.117 ++ NR = 1.013 ++ VAR = 4.377 ++ IKR = 0.001057 ++ ISC = 1.461E-014 ++ NC = 1.974 ++ RB = 5.303 ++ IRB = 2.424E-005 ++ RBM = 0.7806 ++ RE = 0.03041 ++ RC = 0.3741 ++ XTB = 0.8548 ++ EG = 1.111 ++ XTI = 9.516 ++ CJE = 3.916E-012 ++ VJE = 0.9 ++ MJE = 0.415 ++ TF = 1.553E-011 ++ XTF = 291.9 ++ VTF = 4 ++ ITF = 3.936 ++ PTF = 0.001 ++ CJC = 1E-012 ++ VJC = 0.6463 ++ MJC = 0.5166 ++ XCJC = 0.4567 ++ TR = 1E-009 ++ CJS = 0 ++ MJS = 0.4501 ++ VJS = 0.6 ++ FC = 0.509 ++ KF = 8.931E-017 ++ AF = 1.512) +*************************************************************** +* +.ENDS BFP196 + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFP196W <<< +* (C) 2016 Infineon Technologies AG +* Version 2.2 March 2016 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP196W C B E1 E2 +.SUBCKT BFP196W 11 22 31 32 +* +* +CBEPAR 2 3 1.2E-013 +CBCPAR 2 1 7.844E-014 +CCEPAR 1 3 3.498E-013 +LE 33 30 1.015E-010 +LB 22 20 4.236E-011 +LC 1 11 2.817E-010 +CBEPCK 20 30 1E-013 +CBCPCK 20 1 9.69E-014 +CCEPCK 1 30 8.868E-014 +LBI 20 2 7.351E-010 +LEI 30 3 1.754E-010 +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +Q1 1 2 3 M_BFP196W +* +.MODEL M_BFP196W NPN( ++ TNOM = 25 ++ IS = 8.079E-016 ++ BF = 116.3 ++ NF = 0.9936 ++ VAF = 32.47 ++ IKF = 0.436 ++ ISE = 8.832E-015 ++ NE = 1.845 ++ BR = 9.117 ++ NR = 1 ++ VAR = 3.152 ++ IKR = 0.4253 ++ ISC = 1.854E-014 ++ NC = 2 ++ RB = 2.151 ++ IRB = 0 ++ RBM = 0.4429 ++ RE = 0.1105 ++ RC = 0.629 ++ XTB = 1.303 ++ EG = 1.1 ++ XTI = 6.548 ++ CJE = 4.386E-012 ++ VJE = 0.8631 ++ MJE = 0.3378 ++ TF = 9E-012 ++ XTF = 12.99 ++ VTF = 1.823 ++ ITF = 0.3266 ++ PTF = 0.2043 ++ CJC = 1.45E-012 ++ VJC = 0.552 ++ MJC = 0.2504 ++ XCJC = 1 ++ TR = 1.456E-008 ++ CJS = 0 ++ MJS = 0.3753 ++ VJS = 0.783 ++ FC = 0.9999 ++ KF = 8.931E-017 ++ AF = 1.512) +*************************************************************** +* +* +.ENDS BFP196W + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFP405 <<< +* (C) 2012 Infineon Technologies AG +* Version 2.1 January 2012 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 555 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP405 C B E1 E2 +.SUBCKT BFP405 1 2 3 4 +* +CBEPAR 22 33 1.122E-013 +CBCPAR 22 11 4.514E-014 +CCEPAR 11 33 1.61E-014 +LB 22 20 6.485E-010 +LE 33 30 1.968E-010 +LC 11 10 6.833E-010 +CBEPCK 20 30 6.219E-014 +CBCPCK 20 10 7.843E-015 +CCEPCK 10 30 6.427E-014 +LBX 20 2 3.03E-010 +LEX 30 35 6.285E-011 +LCX 10 1 3.344E-010 +* +RSUB 55 30 39.31 +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +* +Diode_sub 55 11 M_Diode_sub +* +Q1 11 22 33 55 M_BFP405 +* +.MODEL M_Diode_sub D( ++ IS = 2.266E-015 ++ N = 1.02 ++ RS = 60.11 ++ CJO = 1E-014) +* +.MODEL M_BFP405 NPN( ++ TNOM = 25 ++ IS = 1.222E-017 ++ BF = 146.8 ++ NF = 0.9965 ++ VAF = 45.14 ++ IKF = 0.2141 ++ ISE = 4.611E-015 ++ NE = 2 ++ BR = 14.57 ++ NR = 1 ++ VAR = 2.182 ++ IKR = 0.01198 ++ ISC = 1.456E-014 ++ NC = 2 ++ RB = 15.37 ++ IRB = 0 ++ RBM = 1.772 ++ RE = 0.9902 ++ RC = 3.012 ++ XTB = -0.1945 ++ EG = 1.11 ++ XTI = 5.65 ++ CJE = 3.049E-013 ++ VJE = 0.9695 ++ MJE = 0.1352 ++ TF = 4.857E-012 ++ XTF = 13.32 ++ VTF = 3.5 ++ ITF = 0.3136 ++ PTF = 9.485E-010 ++ CJC = 3.378E-014 ++ VJC = 0.6367 ++ MJC = 0.4276 ++ XCJC = 0.7499 ++ TR = 0.0009978 ++ CJS = 2.2E-013 ++ MJS = 0.2876 ++ VJS = 0.6442 ++ FC = 0.5 ++ KF = 7.1E-10 ++ AF = 2.1) +*************************************************************** +* +.ENDS BFP405 + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 12 GHZ +* >>> BFP405F <<< +* (C) 2014 Infineon Technologies AG +* Version 3.1 October 2014 +*************************************************************** +*.OPTION GMIN= 1.00e-12 +*BFP405F 111 22 31 32 +.SUBCKT BFP405F 111 22 31 32 +* +CBEPAR 2 3 1.298E-013 +CBCPAR 2 10 3.516E-014 +CCEPAR 10 3 1.546E-015 +LEx 30 33 6.318E-011 +LBx 20 22 3.058E-010 +LCx 11 111 2.194E-010 +CBEPCK 20 30 6.219E-014 +CBCPCK 11 20 7.843E-015 +CCEPCK 11 30 6.427E-014 +LB 2 20 2.813E-010 +LE 3 30 1.568E-010 +LC 10 11 6.141E-010 +* +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +RSub 4 30 39.31 +Rcx 1 10 1 +* +Diode_sub 4 1 M_Diode_sub +* +.MODEL M_Diode_sub D( ++ IS = 3.5E-015 ++ N = 1.02 ++ RS = 1380 ++ CJO = 4E-014 ++ TNOM = 25) +* +Q1 1 2 3 4 M_BFP405F +* +.MODEL M_BFP405F NPN( ++ TNOM = 25 ++ IS = 9.786E-018 ++ BF = 122.6 ++ NF = 0.9944 ++ VAF = 55.11 ++ IKF = 0.17 ++ ISE = 2.521E-014 ++ NE = 2.458 ++ BR = 17.08 ++ NR = 0.9849 ++ VAR = 3 ++ IKR = 0.812 ++ ISC = 8.824E-017 ++ NC = 1.373 ++ RB = 28.06 ++ IRB = 0 ++ RBM = 7.073 ++ RE = 0.8343 ++ RC = 8.855 ++ XTB = -0.1945 ++ EG = 1.11 ++ XTI = 5.65 ++ CJE = 9.201E-014 ++ VJE = 0.9622 ++ MJE = 0.4628 ++ TF = 5.026E-012 ++ XTF = 710.7 ++ VTF = 1.631 ++ ITF = 2.188 ++ PTF = 2.329E-008 ++ CJC = 2.974E-014 ++ VJC = 0.9104 ++ MJC = 0.7658 ++ XCJC = 0.7499 ++ TR = 1.879E-009 ++ CJS = 3.298E-013 ++ MJS = 0.5521 ++ VJS = 2 ++ FC = 0.5 ++ KF = 0 ++ AF = 1) +*************************************************************** +* +* +.ENDS BFP405F + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 12 GHZ +* >>> BFP410 <<< +* (C) 2014 Infineon Technologies AG +* Version 3.1 October 2014 +*************************************************************** +*.OPTION GMIN= 1.00e-12 +*BFP410 111 22 31 32 +.SUBCKT BFP410 111 22 31 32 +* +CBEPAR 2 3 3.07788E-013 +CBCPAR 2 10 6.2793E-014 +CCEPAR 10 3 1.12531E-013 +LEx 30 33 1.67697E-020 +LBx 20 22 6.71048E-010 +LCx 11 111 8.80072E-010 +CBEPCK 20 30 6.219E-014 +CBCPCK 11 20 7.843E-015 +CCEPCK 11 30 6.427E-014 +LB 2 20 3.23461E-010 +LE 3 30 2.21759E-010 +LC 10 11 2.45831E-010 +* +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +RSub 4 30 260 +Rcx 1 10 1 +* +Diode_sub 4 1 M_Diode_sub +* +.MODEL M_Diode_sub D( ++ IS = 6.662E-016 ++ N = 0.9692 ++ RS = 1380 ++ CJO = 4E-014 ++ TNOM = 25) +* +Q1 1 2 3 4 M_BFP410 +* +.MODEL M_BFP410 NPN( ++ TNOM = 25 ++ IS = 1.899E-017 ++ BF = 105.8 ++ NF = 0.9951 ++ VAF = 55.11 ++ IKF = 0.4494 ++ ISE = 7.029E-014 ++ NE = 2.811 ++ BR = 43.41 ++ NR = 0.9714 ++ VAR = 3.56 ++ IKR = 0.002084 ++ ISC = 1.441E-018 ++ NC = 20.56 ++ RB = 13.87 ++ IRB = 0 ++ RBM = 7.073 ++ RE = 0.3799 ++ RC = 4.224 ++ XTB = -0.1945 ++ EG = 1.11 ++ XTI = 5.65 ++ CJE = 2.2012E-013 ++ VJE = 0.16 ++ MJE = 0.0865484 ++ TF = 4.42467E-012 ++ XTF = 17.2841 ++ VTF = 5.80018 ++ ITF = 0.611742 ++ PTF = 3.535E-008 ++ CJC = 5.36125E-014 ++ VJC = 1.20092 ++ MJC = 0.15027 ++ XCJC = 0.7499 ++ TR = 1.396E-009 ++ CJS = 1.33653E-013 ++ MJS = 0.275519 ++ VJS = 0.78109 ++ FC = 0.5 ++ KF = 0 ++ AF = 1) +*************************************************************** +* +* +.ENDS BFP410 + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP420 <<< +* (C) 2012 Infineon Technologies AG +* Version 2.1 January 2012 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 260 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP420 C B E1 E2 +.SUBCKT BFP420 1 2 3 4 +* +CBEPAR 22 33 5.592E-014 +CBCPAR 22 11 1.143E-013 +CCEPAR 11 33 1.596E-013 +LB 22 20 7.42E-010 +LE 33 30 1.656E-010 +LC 11 10 7.7E-010 +CBEPCK 20 30 4.741E-014 +CBCPCK 20 10 1.135E-015 +CCEPCK 10 30 4.48E-014 +LBX 20 2 2.339E-010 +LEX 30 35 4.189E-011 +LCX 10 1 2.243E-010 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +RSub 55 33 176.4 +* +Diode_sub 55 11 M_Diode_sub +* +Q1 11 22 33 55 M_BFP420 +* +.MODEL M_Diode_sub D( ++ IS = 4.356E-015 ++ N = 1.02 ++ RS = 0.1 ++ CJO = 4E-014 ++ TNOM = 25) +* +.MODEL M_BFP420 NPN( ++ TNOM = 25 ++ IS = 3.753E-017 ++ BF = 140.8 ++ NF = 0.9996 ++ VAF = 59.18 ++ IKF = 0.6604 ++ ISE = 1E-014 ++ NE = 2 ++ BR = 13.61 ++ NR = 0.9938 ++ VAR = 2.685 ++ IKR = 0.007013 ++ ISC = 3.49E-016 ++ NC = 1.5 ++ RB = 11.99 ++ IRB = 0 ++ RBM = 1.521 ++ RE = 0.3062 ++ RC = 2.152 ++ XTB = 0.1187 ++ EG = 1.11 ++ XTI = 4.162 ++ CJE = 5.621E-013 ++ VJE = 0.4892 ++ MJE = 0.2565 ++ TF = 4.83855E-012 ++ XTF = 6.245 ++ VTF = 10.66 ++ ITF = 0.5436 ++ PTF = 0 ++ CJC = 1.227E-013 ++ VJC = 0.8453 ++ MJC = 0.6803 ++ XCJC = 0.7 ++ TR = 4.7E-009 ++ CJS = 4.757E-013 ++ MJS = 1 ++ VJS = 0.5323 ++ FC = 0.4148 ++ KF = 65.9E-12 ++ AF = 2.0) +*************************************************************** +* +.ENDS BFP420 + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP420F <<< +* (C) 2011 Infineon Technologies AG +* Version 2.1 August 2011 +*************************************************************** +* - Please use the global SPICE parameter TEMP to set the junction +* temperature of this device in your circuit to get correct DC +* simulation results. +* - TEMP is calculated by TEMP=TA+P*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated power +* P=VCE*IC (IC collector current, VCE collector-emitter voltage). +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 240 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature. +* Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP420F C B E1 E2 +.SUBCKT BFP420F 1 2 3 4 +* +CBEPAR 22 33 6.84421E-014 +CBCPAR 22 11 1.04791E-013 +CCEPAR 11 33 1.08422E-014 +LB 22 20 5.76616E-010 +LE 33 30 2.74191E-010 +LC 11 10 5.5524E-010 +CBEPCK 20 30 4.64908E-014 +CBCPCK 20 10 1.764E-015 +CCEPCK 10 30 3.98512E-014 +LBX 20 2 8.07664E-011 +LEX 30 35 4.936E-011 +LCX 10 1 7.26419E-011 +* +RS 55 30 13.05 +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +Diode_sub 55 11 M_Diode_sub +* +Q1 11 22 33 55 M_BFP420F +* +.MODEL M_Diode_sub D( ++ IS = 4.356E-015 ++ N = 1.02 ++ RS = 0.1 ++ CJO = 4E-014 ++ TNOM = 25) +* +.MODEL M_BFP420F NPN( ++ TNOM = 25 ++ IS = 3.753E-017 ++ BF = 127.8 ++ NF = 0.9969 ++ VAF = 59.18 ++ IKF = 0.6604 ++ ISE = 2.064E-013 ++ NE = 2.593 ++ BR = 13.61 ++ NR = 1.009 ++ VAR = 2.685 ++ IKR = 0.007013 ++ ISC = 3.49E-016 ++ NC = 1.5 ++ RB = 7.236 ++ IRB = 0 ++ RBM = 1.521 ++ RE = 0.3062 ++ RC = 2.152 ++ XTB = 0.1187 ++ EG = 1.11 ++ XTI = 4.162 ++ CJE = 5.62122E-013 ++ VJE = 0.489194 ++ MJE = 0.2565 ++ TF = 4.49302E-012 ++ XTF = 6.24451 ++ VTF = 10.658 ++ ITF = 0.543638 ++ PTF = 0 ++ CJC = 1.2273E-013 ++ VJC = 0.8453 ++ MJC = 0.6803 ++ XCJC = 0.7 ++ TR = 4.7E-009 ++ CJS = 4.75722E-013 ++ MJS = 1 ++ VJS = 0.532348 ++ FC = 0.4148 ++ KF = 4.677E-011 ++ AF = 1.966) +*************************************************************** +* +.ENDS BFP420F + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 15 GHZ +* >>> BFP450 <<< +* (C) 2010 Infineon Technologies AG +* Version 1.1 November 2010 +*************************************************************** +* - Please use the global SPICE parameter TEMP to set the junction +* temperature of this device in your circuit to get correct DC +* simulation results. +* - TEMP is calculated by TEMP=TA+P*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated power +* P=VCE*IC (IC collector current, VCE collector-emitter voltage). +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 450 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature. +* Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP450FESD C B E +.SUBCKT BFP450 1 2 3 4 +* +* +CBEPAR 22 33 1.20132E-013 +CBCPAR 22 11 3.02378E-013 +CCEPAR 11 33 3.69684E-017 +LB 22 20 9.04235E-010 +LE 33 30 2.03283E-010 +LC 11 10 2.12462E-010 +CBEPCK 20 30 1.10618E-014 +CBCPCK 20 10 2.51536E-014 +CCEPCK 10 30 2.24704E-013 +LBX 20 2 1.18397E-012 +LEX 30 333 2.31137E-013 +LCX 10 1 7.74176E-010 +RSUB 30 44 260 +* +RE1 33 3 1E-03 +RE2 33 4 1E-03 +* +Q1 11 22 33 44 M_BFP450 +* +.MODEL M_BFP450 NPN( ++ TNOM = 25 ++ IS = 1.21E-016 ++ BF = 112.3 ++ NF = 1 ++ VAF = 46.19 ++ IKF = 1.005 ++ ISE = 2.427E-014 ++ NE = 2 ++ BR = 4.66 ++ NR = 1 ++ VAR = 3.604 ++ IKR = 0.1924 ++ ISC = 3.85E-015 ++ NC = 1.5 ++ RB = 3.193 ++ IRB = 0 ++ RBM = 2.725 ++ RE = 0.09391 ++ RC = 1.578 ++ XTB = 0.04525 ++ EG = 1.12 ++ XTI = 4.267 ++ CJE = 1.777E-012 ++ VJE = 0.7811 ++ MJE = 0.39 ++ TF = 4.125E-012 ++ XTF = 8.008 ++ VTF = 4.189 ++ ITF = 1.889 ++ PTF = 0.1 ++ CJC = 5.069E-013 ++ VJC = 0.6403 ++ MJC = 0.31 ++ XCJC = 0.7031 ++ TR = 4.163E-009 ++ CJS = 1.66361E-012 ++ MJS = 0.154738 ++ VJS = 0.2526 ++ FC = 0.5 ++ KF = 5.5e-12 ++ AF = 1.99) +*************************************************************** +* +* +.ENDS BFP450 + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFP460 <<< +* (C) 2011 Infineon Technologies AG +* Version 2.1 december 2011 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 250 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP460 C B E1 E2 +.SUBCKT BFP460 1 2 3 4 +* +CBEPAR 22 33 1.28143E-013 +CBCPAR 22 11 1.442E-013 +CCEPAR 11 33 1.57251E-013 +LB 22 20 8.19879E-010 +LE 33 30 2.70643E-010 +CBEPCK 20 30 7.159E-014 +CBCPCK 20 11 1E-015 +CCEPCK 11 30 6.715E-014 +LBx 20 2 4.08478E-010 +LEx 30 35 3.12844E-011 +LCx 11 1 3.97005E-010 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +Q1 11 22 33 M_BFP460 +* +.MODEL M_BFP460 NPN( ++ TNOM = 25 ++ IS = 1.221E-016 ++ BF = 187.3 ++ NF = 1.005 ++ VAF = 37.95 ++ IKF = 0.5364 ++ ISE = 6.757E-014 ++ NE = 2.312 ++ BR = 14.19 ++ NR = 1.004 ++ VAR = 2.455 ++ IKR = 0.0866 ++ ISC = 1.335E-015 ++ NC = 1.5 ++ RB = 12.3172 ++ IRB = 0 ++ RBM = 1.73939 ++ RE = 0.2919 ++ RC = 2.88488 ++ XTB = -2.2 ++ EG = 1.11 ++ XTI = 0.91 ++ CJE = 3.967E-013 ++ VJE = 0.4605 ++ MJE = 0.4485 ++ TF = 4.46543E-012 ++ XTF = 18.02 ++ VTF = 3.248 ++ ITF = 0.8641 ++ PTF = 0.1 ++ CJC = 2.777E-013 ++ VJC = 0.6477 ++ MJC = 0.2943 ++ XCJC = 0.7031 ++ TR = 2.703E-006 ++ CJS = 0 ++ MJS = 1 ++ VJS = 1 ++ FC = 0.5 ++ KF = 2.9E-13 ++ AF = 1.4) +*************************************************************** +* +* +.ENDS BFP460 + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 15 GHZ +* >>> BFP520 <<< +* (C) 2011 Infineon Technologies AG +* Version 2.1 November 2011 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 450 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP520 C B E1 E2 +.SUBCKT BFP520 1 2 3 4 +* +CBEPAR 22 33 1.497E-013 +CBCPAR 22 11 4.3E-014 +CCEPAR 11 33 8.422E-014 +LB 22 20 6.709E-010 +LE 33 30 1.362E-010 +LC 11 10 6.418E-010 +CBEPCK 20 30 8.253E-014 +CBCPCK 20 10 5E-015 +CCEPCK 10 30 7.183E-014 +LBX 20 2 2.153E-010 +LEX 30 35 7.038E-011 +LCX 10 1 2.211E-010 +* +RSub 55 30 118 +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +Diode_sub 55 11 M_Diode_sub +* +Q1 11 22 33 55 M_BFP520 +* +.MODEL M_Diode_sub D( ++ IS = 1.21E-015 ++ N = 0.9907 ++ RS = 1 ++ CJO = 1E-014 ++ TNOM = 25) +* +.MODEL M_BFP520 NPN( ++ TNOM = 25 ++ IS = 1.154E-017 ++ BF = 180.9 ++ NF = 1 ++ VAF = 52.37 ++ IKF = 0.1889 ++ ISE = 9.989E-015 ++ NE = 1.981 ++ BR = 30.56 ++ NR = 0.9348 ++ VAR = 2.617 ++ IKR = 0.00999 ++ ISC = 2.021E-013 ++ NC = 2 ++ RB = 15.87 ++ IRB = 0 ++ RBM = 4.337 ++ RE = 0.6815 ++ RC = 5.635 ++ XTB = -0.2 ++ EG = 1.11 ++ XTI = 4.59 ++ CJE = 1.411E-013 ++ VJE = 1.214 ++ MJE = 0.5074 ++ TF = 2.19E-012 ++ XTF = 7.8 ++ VTF = 7.74 ++ ITF = 0.579 ++ PTF = 4.441E-015 ++ CJC = 5.463E-014 ++ VJC = 0.7359 ++ MJC = 0.4654 ++ XCJC = 0.8343 ++ TR = 5.457E-010 ++ CJS = 2.61E-013 ++ MJS = 0.2568 ++ VJS = 0.6947 ++ FC = 0.7902 ++ KF = 5.4E-011 ++ AF = 1.814) +*************************************************************** +* +.ENDS BFP520 + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP540 <<< +* (C) 2011 Infineon Technologies AG +* Version 2.1 November 2011 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 290 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* 0°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP540 C B E1 E2 +.SUBCKT BFP540 1 2 3 4 +* +CBEPAR 22 33 3.19737E-013 +CBCPAR 22 11 1.45578E-013 +CCEPAR 11 33 3.31838E-014 +LB 22 20 7.1E-010 +LE 33 30 1.73226E-010 +LC 11 10 5.45033E-010 +CBEPCK 20 30 9.99916E-014 +CBCPCK 20 10 1.00897E-015 +CCEPCK 10 30 9.96469E-014 +LBX 20 2 3.46463E-010 +LEX 30 35 6.02121E-011 +LCX 10 1 3.89864E-010 +* +RS 55 30 82.8307 +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +Diode_sub 55 11 M_Diode_sub +* +Q1 11 22 33 55 M_BFP540 +* +.MODEL M_Diode_sub D( ++ IS = 5.132E-016 ++ N = 1 ++ RS = 400 ++ CJO = 4E-014 ++ TNOM = 25) +* +.MODEL M_BFP540 NPN( ++ TNOM = 25 ++ IS = 6.79E-017 ++ BF = 205.5 ++ NF = 1 ++ VAF = 46.19 ++ IKF = 0.5278 ++ ISE = 3.946E-014 ++ NE = 2 ++ BR = 4.66 ++ NR = 1 ++ VAR = 1.843 ++ IKR = 0.1924 ++ ISC = 3.85E-015 ++ NC = 1.5 ++ RB = 13.9992 ++ IRB = 0 ++ RBM = 2.234 ++ RE = 0.1699 ++ RC = 2.484 ++ XTB = -1.003 ++ EG = 1.11 ++ XTI = 2.786 ++ CJE = 3.354E-013 ++ VJE = 1.453 ++ MJE = 0.8833 ++ TF = 3.624E-012 ++ XTF = 5.037 ++ VTF = 3.248 ++ ITF = 0.7287 ++ PTF = 0.1 ++ CJC = 6.349E-014 ++ VJC = 0.8371 ++ MJC = 0.9968 ++ XCJC = 0.7031 ++ TR = 4.163E-009 ++ CJS = 4.19E-013 ++ MJS = 0.164 ++ VJS = 0.1689 ++ FC = 0.6027 ++ KF = 18.9E-011 ++ AF = 2.01) +*************************************************************** +* +.ENDS BFP540 + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP540ESD <<< +* (C) 2011 Infineon Technologies AG +* Version 2.1 November 2011 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 290 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* 0°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP540ESD C B E1 E2 +.SUBCKT BFP540ESD 1 2 3 4 +* +CBEPAR 22 33 3.19737E-013 +CBCPAR 22 11 1.45578E-013 +CCEPAR 11 33 3.31838E-014 +LB 22 20 7.1E-010 +LE 33 30 1.73226E-010 +LC 11 10 5.45033E-010 +CBEPCK 20 30 9.99916E-014 +CBCPCK 20 10 1.00897E-015 +CCEPCK 10 30 9.96469E-014 +LBX 20 2 3.46463E-010 +LEX 30 35 6.02121E-011 +LCX 10 1 3.89864E-010 +* +RS 55 30 82.8307 +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +Diode_sub 55 11 M_Diode_sub +* +Q1 11 22 33 55 M_BFP540ESD +* +.MODEL M_Diode_sub D( ++ IS = 5.132E-016 ++ N = 1 ++ RS = 400 ++ CJO = 4E-014 ++ TNOM = 25) +* +.MODEL M_BFP540ESD NPN( ++ TNOM = 25 ++ IS = 6.79E-017 ++ BF = 205.5 ++ NF = 1 ++ VAF = 46.19 ++ IKF = 0.5278 ++ ISE = 3.946E-014 ++ NE = 2 ++ BR = 4.66 ++ NR = 1 ++ VAR = 1.843 ++ IKR = 0.1924 ++ ISC = 3.85E-015 ++ NC = 1.5 ++ RB = 13.9992 ++ IRB = 0 ++ RBM = 2.234 ++ RE = 0.1699 ++ RC = 2.484 ++ XTB = -1.003 ++ EG = 1.11 ++ XTI = 2.786 ++ CJE = 3.354E-013 ++ VJE = 1.453 ++ MJE = 0.8833 ++ TF = 3.624E-012 ++ XTF = 5.037 ++ VTF = 3.248 ++ ITF = 0.7287 ++ PTF = 0.1 ++ CJC = 6.349E-014 ++ VJC = 0.8371 ++ MJC = 0.9968 ++ XCJC = 0.7031 ++ TR = 4.163E-009 ++ CJS = 4.19E-013 ++ MJS = 0.164 ++ VJS = 0.1689 ++ FC = 0.6027 ++ KF = 18.9E-011 ++ AF = 2.01) +*************************************************************** +* +.ENDS BFP540ESD + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 8 GHZ +* >>> BFP540FESD <<< +* (C) 2012 Infineon Technologies AG +* Version 2.1 January 2012 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 280 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +* BFP540FESD C B E1 E2 +.SUBCKT BFP540FESD 1 2 3 4 +* +CBEPAR 22 33 3.758E-013 +CBCPAR 22 11 1.32003E-013 +CCEPAR 11 33 4.41012E-014 +LB 22 20 5.25538E-010 +LE 33 30 1.7602E-010 +LC 11 10 4.1569E-010 +CBEPCK 20 30 3.3795E-014 +CBCPCK 20 10 1E-015 +CCEPCK 10 30 3.04416E-014 +LBX 20 2 1.69782E-010 +LEX 30 35 7.67852E-011 +LCX 10 1 1.63982E-010 +* +RS 55 33 91.8342 +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +Diode_sub 55 11 M_Diode_sub +Q1 11 22 33 55 M_BFP540FESD +* +.MODEL M_Diode_sub D( ++ IS = 5.566E-015 ++ N = 1 ++ RS = 400 ++ CJO = 9.14809E-014) +* +.MODEL M_BFP540FESD NPN( ++ TNOM = 25 ++ IS = 6.79E-017 ++ BF = 205.5 ++ NF = 1 ++ VAF = 46.19 ++ IKF = 0.5278 ++ ISE = 3.946E-014 ++ NE = 2 ++ BR = 4.66 ++ NR = 1 ++ VAR = 1.843 ++ IKR = 0.1924 ++ ISC = 3.85E-015 ++ NC = 1.5 ++ RB = 17.6828 ++ IRB = 0 ++ RBM = 2.234 ++ RE = 0.1699 ++ RC = 2.484 ++ XTB = -1.003 ++ EG = 1.11 ++ XTI = 2.786 ++ CJE = 3.354E-013 ++ VJE = 1.453 ++ MJE = 0.8833 ++ TF = 3.77825E-012 ++ XTF = 5.037 ++ VTF = 6.92041 ++ ITF = 0.719327 ++ PTF = 0.1 ++ CJC = 6.349E-014 ++ VJC = 0.8371 ++ MJC = 0.9968 ++ XCJC = 0.7031 ++ TR = 4.163E-009 ++ CJS = 4.19E-013 ++ MJS = 0.164 ++ VJS = 0.1689 ++ FC = 0.6027 ++ KF = 8.9E-011 ++ AF = 2) +*************************************************************** +* +.ENDS BFP540FESD + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP620 <<< +* (C) 2014 Infineon Technologies AG +* Version 3.1 Oktober 2014 +*************************************************************** +*.OPTION GMIN= 1.00e-12 +*BFP620 C B E1 E2 +.SUBCKT BFP620 111 22 31 32 +* +CBEPAR 2 3 1.61E-014 +CBCPAR 2 10 9.206E-014 +CCEPAR 10 3 4.783E-014 +LEx 30 33 2.103E-012 +LBx 20 22 4.68E-010 +LCx 11 111 3.153E-010 +CBEPCK 20 30 7.147E-014 +CBCPCK 11 20 4.512E-016 +CCEPCK 11 30 1.305E-013 +LB 2 20 5.692E-010 +LE 3 30 2.255E-010 +LC 10 11 6.581E-010 +* +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +RSub 4 30 260 +Rcx 1 10 1.449 +* +Diode_sub 4 1 M_Diode_sub +* +.MODEL M_Diode_sub D( ++ IS = 2.16E-014 ++ N = 1.123 ++ RS = 0.1 ++ CJO = 4E-014 ++ TNOM = 25) +* +Q1 1 2 3 4 M_BFP620 +* +.MODEL M_BFP620 NPN( ++ TNOM = 25 ++ IS = 2.057E-015 ++ BF = 1148 ++ NF = 1.008 ++ VAF = 355.5 ++ IKF = 0.2022 ++ ISE = 2.675E-013 ++ NE = 2.946 ++ BR = 309.1 ++ NR = 0.9849 ++ VAR = 1.204 ++ IKR = 0.005842 ++ ISC = 1E-017 ++ NC = 7.2 ++ RB = 8.533 ++ IRB = 0.0007035 ++ RBM = 3.31 ++ RE = 0.02592 ++ RC = 2.429 ++ XTB = -2.482 ++ EG = 1.034 ++ XTI = 0.808 ++ CJE = 4.356E-013 ++ VJE = 0.337 ++ MJE = 0.004858 ++ TF = 1.4E-012 ++ XTF = 1.466 ++ VTF = 3.079 ++ ITF = 2.083 ++ PTF = 8.82E-016 ++ CJC = 9.958E-014 ++ VJC = 1.68 ++ MJC = 1.715 ++ XCJC = 0.6466 ++ TR = 1E-009 ++ CJS = 8.583E-014 ++ MJS = 0.1744 ++ VJS = 0.1542 ++ FC = 0.8156 ++ KF = 2.56E-011 ++ AF = 1.798) +*************************************************************** +* +* +.ENDS BFP620 + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 12 GHZ +* >>> BFP620F <<< +* (C) 2014 Infineon Technologies AG +* Version 2.1 Oktober 2014 +*************************************************************** +*.OPTION GMIN= 1.00e-12 +*BFP620F 111 22 31 32 +.SUBCKT BFP620F 111 22 31 32 +* +CBEPAR 2 3 4.4739E-013 +CBCPAR 2 10 4.27507E-014 +CCEPAR 10 3 4.78735E-015 +LEx 30 33 2.36732E-011 +LBx 20 22 1.51076E-014 +LCx 11 111 2.698E-014 +CBEPCK 20 30 5.065E-014 +CBCPCK 11 20 5E-015 +CCEPCK 11 30 1.844E-014 +LB 2 20 6.7218E-010 +LE 3 30 2.38369E-010 +LC 10 11 4.2493E-010 +* +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +RSub 4 30 260 +Rcx 1 10 0.98758 +* +Diode_sub 4 1 M_Diode_sub +* +.MODEL M_Diode_sub D( ++ IS = 4.72872E-015 ++ N = 1.00535 ++ RS = 1380 ++ CJO = 4E-014 ++ TNOM = 25) +* +Q1 1 2 3 4 M_BFP620F +* +.MODEL M_BFP620F NPN( ++ TNOM = 25 ++ IS = 2.43538E-015 ++ BF = 1210.87 ++ NF = 1.00765 ++ VAF = 711 ++ IKF = 0.671822 ++ ISE = 2.10616E-014 ++ NE = 1.95899 ++ BR = 454.082 ++ NR = 1.00153 ++ VAR = 1.04564 ++ IKR = 0.00337819 ++ ISC = 3.2132E-016 ++ NC = 1.498 ++ RB = 21 ++ IRB = 0.0007035 ++ RBM = 10 ++ RE = 0.159079 ++ RC = 1.3582 ++ XTB = -2.48 ++ EG = 1.1 ++ XTI = 0.808 ++ CJE = 1.97957E-014 ++ VJE = 0.365329 ++ MJE = 0.252139 ++ TF = 1.04936E-012 ++ XTF = 0.003926 ++ VTF = 1.517 ++ ITF = 1.38779 ++ PTF = 4.342E-017 ++ CJC = 1.64596E-013 ++ VJC = 0.715467 ++ MJC = 0.474119 ++ XCJC = 0.646 ++ TR = 4.595E-009 ++ CJS = 2.65932E-014 ++ MJS = 2.99989 ++ VJS = 0.4006 ++ FC = 0.815 ++ KF = 2.56E-011 ++ AF = 1.798) +*************************************************************** +* +* +.ENDS BFP620F + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP640 <<< +* (C) 2013 Infineon Technologies AG +* Version 2.1 April 2013 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 300 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP640 C B E1 E2 +.SUBCKT BFP640 1 2 3 4 +* +* +CBEPAR 22 33 8.577E-014 +CBCPAR 22 11 8.597E-014 +CCEPAR 11 33 1E-015 +LE 33 30 1.41072E-010 +LB 22 20 6.76541E-010 +LC 11 10 4.8003E-010 +CBEPCK 20 30 4E-014 +CBCPCK 20 10 1E-015 +CCEPCK 10 30 4E-014 +LBX 20 2 2.7E-010 +LEX 30 35 8.971E-011 +LCX 10 1 2.7E-010 +* +RSUB 55 30 260 +Rcx 111 11 4.467 +* +D1 55 111 M_D1 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +.MODEL M_D1 D( ++ IS=8.005E-015 ++ N=1.02 ++ RS=0.1 ++ CJO=4E-014) +* +Q1 111 22 33 55 M_BFP640 +* +.MODEL M_BFP640 NPN( ++ TNOM = 25 ++ IS = 1.239E-015 ++ BF = 887.6 ++ NF = 1 ++ VAF = 1000 ++ IKF = 0.1433 ++ ISE = 1E-014 ++ NE = 2 ++ BR = 148.3 ++ NR = 1 ++ VAR = 1.202 ++ IKR = 0.01 ++ ISC = 2.948E-015 ++ NC = 2 ++ RB = 5.016 ++ IRB = 0 ++ RBM = 1.977 ++ RE = 0.3592 ++ RC = 2.953 ++ XTB = -2.576 ++ EG = 1.09 ++ XTI = 0.15 ++ CJE = 4.58707E-013 ++ VJE = 1.76884 ++ MJE = 0.164326 ++ TF = 2.13534E-012 ++ XTF = 1 ++ VTF = 0.03 ++ ITF = 2 ++ PTF = 0.1 ++ CJC = 6.62237E-014 ++ VJC = 0.936235 ++ MJC = 1.16702 ++ XCJC = 1 ++ TR = 1E-009 ++ CJS = 1.20379E-013 ++ MJS = 0.3 ++ VJS = 1 ++ FC = 0.5 ++ KF = 1.981E-012 ++ AF = 1.552) +*************************************************************** +* +.ENDS BFP640 + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP640ESD <<< +* (C) 2012 Infineon Technologies AG +* Version 2.1 November 2012 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 310 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP640ESD C B E1 E2 +.SUBCKT BFP640ESD 1 2 3 4 +* +CBEPAR 22 33 2.29E-013 +CBCPAR 22 11 7.095E-014 +CCEPAR 11 33 2.024E-013 +LB 22 20 6.623E-010 +LE 33 30 1.519E-010 +LC 11 10 6.522E-010 +CBEPCK 20 30 4.4E-014 +CBCPCK 20 10 1E-015 +CCEPCK 10 30 4.4E-014 +LBX 20 2 3.607E-010 +LEX 30 35 5.524E-011 +LCX 10 1 2.452E-010 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +D1 33 25 M_D1 +D2 41 25 M_D2 +* +RBLfdb 22 25 1.754 +* +R_PW_fbd 41 33 7.5 +R_PW_e11g 42 33 2.1 +R_sub_fbd 41 5 477 +R_sub_e11g 42 5 350 +R_CS_npn 55 5 424.1 +RSUB 30 5 0.001 +* +D3 42 15 M_D3 +D4 23 33 M_D4 +D5 23 15 M_D5 +* +RLDNBL 15 11 10.63 +* +Q1 11 22 33 55 M_BFP640ESD +* +.MODEL M_D1 D( ++ IS=3.5E-015 ++ N=1 ++ RS=6.1 ++ CJO=1E-014) +* +.MODEL M_D2 D( ++ IS=6E-015 ++ N=1 ++ RS=0.01 ++ CJO=9E-015) +* +.MODEL M_D3 D( ++ IS=9E-015 ++ N=0.9973 ++ RS=160 ++ CJO =2E-014) +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=1 ++ RS=0.2 ++ CJO =2E-014) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =3.003E-014) +* +* +.MODEL M_BFP640ESD NPN( ++ TNOM = 25 ++ IS = 9.658E-016 ++ BF = 557.2 ++ NF = 1 ++ VAF = 192.2 ++ IKF = 0.09128 ++ ISE = 3.626E-014 ++ NE = 2 ++ BR = 246.5 ++ NR = 0.9955 ++ VAR = 1.577 ++ IKR = 0.004397 ++ ISC = 1.27E-014 ++ NC = 1.322 ++ RB = 4.406 ++ IRB = 0.0006534 ++ RBM = 0.8094 ++ RE = 0.2638 ++ RC = 4.042 ++ XTB = -2.576 ++ EG = 1.11 ++ XTI = 0.15 ++ CJE = 3.798E-013 ++ VJE = 1 ++ MJE = 0.1016 ++ TF = 2.172E-012 ++ XTF = 1.084 ++ VTF = 0.5626 ++ ITF = 0.3839 ++ PTF = 0.28 ++ CJC = 5.346E-014 ++ VJC = 0.7186 ++ MJC = 0.8649 ++ XCJC = 1 ++ TR = 2E-009 ++ CJS = 1.404E-013 ++ MJS = 0.07264 ++ VJS = 0.4 ++ FC = 0.3 ++ KF = 7.116E-011 ++ AF = 1.7) +*************************************************************** +.ENDS BFP640ESD + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFP640F <<< +* (C) 2013 Infineon Technologies AG +* Version 1.1 April 2013 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 290 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP640F C B E1 E2 +.SUBCKT BFP640F 1 2 3 4 +* +* +CBEPAR 22 33 3.22079E-014 +CBCPAR 22 11 7.89594E-014 +CCEPAR 11 33 1E-015 +LE 33 30 2.1E-010 +LB 22 20 4.38378E-010 +LC 11 10 5.25411E-010 +K_BC LB LC 0.2398 +K_EB LE LB 0.1 +K_EC LE LC 0.1 +CBEPCK 20 30 3E-014 +CBCPCK 20 10 1E-015 +CCEPCK 10 30 3E-014 +LBX 20 2 2E-010 +LEX 30 35 5E-011 +LCX 10 1 2E-010 +* +RSUB 55 30 260 +Rcx 111 11 4.467 +* +D1 55 111 M_D1 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +.MODEL M_D1 D( ++ IS=8.005E-015 ++ N=1.02 ++ RS=0.1 ++ CJO=4E-014) +* +Q1 111 22 33 55 M_BFP640F +* +.MODEL M_BFP640F NPN( ++ TNOM = 25 ++ IS = 1.239E-015 ++ BF = 887.6 ++ NF = 1 ++ VAF = 1000 ++ IKF = 0.1433 ++ ISE = 1E-014 ++ NE = 2 ++ BR = 148.3 ++ NR = 1 ++ VAR = 1.202 ++ IKR = 0.01 ++ ISC = 2.948E-015 ++ NC = 2 ++ RB = 5.016 ++ IRB = 0 ++ RBM = 1.977 ++ RE = 0.3592 ++ RC = 2.953 ++ XTB = -2.514 ++ EG = 1.09 ++ XTI = 0.808 ++ CJE = 4.587E-013 ++ VJE = 1.769 ++ MJE = 0.1643 ++ TF = 2.04121E-012 ++ XTF = 1 ++ VTF = 0.03 ++ ITF = 2 ++ PTF = 0.1 ++ CJC = 6.622E-014 ++ VJC = 0.9362 ++ MJC = 1.167 ++ XCJC = 1 ++ TR = 1E-009 ++ CJS = 1.204E-013 ++ MJS = 0.3 ++ VJS = 1 ++ FC = 0.5 ++ KF = 9.35597E-013 ++ AF = 1.32796) +*************************************************************** +* +.ENDS BFP640F + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP640FESD <<< +* (C) 2010 Infineon Technologies AG +* Version 1.1 April 2016 +*************************************************************** +* - Please use the global SPICE parameter TEMP to set the junction +* temperature of this device in your circuit to get correct DC +* simulation results. +* - TEMP is calculated by TEMP=TA+P*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated power +* P=VCE*IC (IC collector current, VCE collector-emitter voltage). +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 300 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature. +* Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP640FESD C B E1 E2 +.SUBCKT BFP640FESD 1 2 31 32 +* +* +CBEPAR 22 33 3.13946E-013 +CBCPAR 22 11 2.787E-014 +CCEPAR 11 33 3.39308E-015 +LB 22 20 5.04561E-010 +LE 33 30 9.88791E-011 +LC 11 10 5.104E-010 +CBEPCK 20 30 5.49758E-014 +CBCPCK 20 10 8.469E-015 +CCEPCK 10 30 1.00975E-014 +LBX 20 2 4.005E-011 +LEX 30 3 4.176E-011 +LCX 10 1 2.07E-011 +* +* +D1 33 25 M_D1 +D2 26 25 M_D2 +RBLfdb 22 25 3.2 +RPWf 33 26 7.64 +RPWe 33 16 11.27 +RSf 26 4 477 +RSe 16 4 350 +RCs 44 4 0.26 +RSUB 30 4 1.00e-12 +D3 16 15 M_D3 +D4 23 33 M_D4 +D5 23 15 M_D5 +RLDNBL 15 11 14.8 +* +RE1 3 31 1E-03 +RE2 3 32 1E-03 +* +* +Q1 11 22 33 44 M_BFP640FESD +* +* +.MODEL M_D1 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=6.1 ++ CJO=2E-014) +* +* +.MODEL M_D2 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=0 ++ CJO=2.25E-014) +* +* +.MODEL M_D3 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=0 ++ CJO =9.57E-014) +* +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=0.2 ++ CJO =3E-014) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =3E-014) +* +* +* +* +.MODEL M_BFP640FESD NPN( ++ TNOM = 25 ++ IS = 1.542E-015 ++ BF = 642.6 ++ NF = 1.014 ++ VAF = 355.5 ++ IKF = 0.1782 ++ ISE = 3.98E-015 ++ NE = 1.737 ++ BR = 49.18 ++ NR = 0.98 ++ VAR = 1.378 ++ IKR = 0.1924 ++ ISC = 3.85E-015 ++ NC = 1.5 ++ RB = 6.00965 ++ IRB = 9.099E-006 ++ RBM = 1.74736 ++ RE = 0.0142 ++ RC = 4.54 ++ XTB = -2.514 ++ EG = 1.11 ++ XTI = 0.808 ++ CJE = 1.676E-013 ++ VJE = 0.6804 ++ MJE = 0.2508 ++ TF = 1.836E-012 ++ XTF = 2.279 ++ VTF = 0.9972 ++ ITF = 0.6365 ++ PTF = 0.2896 ++ CJC = 8.39234E-014 ++ VJC = 0.5464 ++ MJC = 0.3098 ++ XCJC = 0.6466 ++ TR = 1.489E-007 ++ CJS = 2.15519E-013 ++ MJS = 0.2426 ++ VJS = 0.29 ++ FC = 0.8156 ++ KF = 123.5E-12 ++ AF = 1.89) +*************************************************************** +* +* +.ENDS BFP640FESD + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 15 GHZ +* >>> BFP650 <<< +* (C) 2012 Infineon Technologies AG +* Version 2.1 January 2012 +*************************************************************** +* - Please use the global SPICE parameter TEMP to set the junction +* temperature of this device in your circuit to get correct DC +* simulation results. +* - TEMP is calculated by TEMP=TA+P*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the temperature increment caused by the dissipated power +* P=VCE*IC (IC collector current, VCE collector-emitter voltage). +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 140 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature. +* Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP650 C B E1 E2 +.SUBCKT BFP650 1 2 3 4 +* +CBEPAR 22 33 1.251E-012 +CBCPAR 22 11 2.098E-013 +CCEPAR 11 33 8.929E-014 +LB 22 20 6.42975E-010 +LE 33 30 2.00713E-010 +LC 11 10 7.19229E-010 +CBEPCK 20 30 8.352E-014 +CBCPCK 20 10 1.31927E-015 +CCEPCK 10 30 9.42707E-014 +LBX 20 2 3.95979E-010 +LEX 30 35 3.49243E-011 +LCX 10 1 2.37233E-010 +* +RSub 55 30 451.803 +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +Q1 11 22 33 55 M_BFP650 +* +.MODEL M_BFP650 NPN( ++ TNOM = 25 ++ IS = 4.379E-015 ++ BF = 546.3 ++ NF = 1.02 ++ VAF = 149.9 ++ IKF = 0.1673 ++ ISE = 5.486E-014 ++ NE = 2 ++ BR = 185.8 ++ NR = 1 ++ VAR = 1.816 ++ IKR = 0.01136 ++ ISC = 6.651E-015 ++ NC = 1.5 ++ RB = 6.376 ++ IRB = 8.075E-005 ++ RBM = 0.01719 ++ RE = 0.294 ++ RC = 2.354 ++ XTB = -2.56 ++ EG = 1.103 ++ XTI = 0 ++ CJE = 2.187E-013 ++ VJE = 1 ++ MJE = 0.6662 ++ TF = 1.45381E-012 ++ XTF = 1 ++ VTF = 0.164654 ++ ITF = 0.940064 ++ PTF = 17.5 ++ CJC = 1.834E-013 ++ VJC = 0.4096 ++ MJC = 0.4691 ++ XCJC = 0.5 ++ TR = 1E-009 ++ CJS = 1.7E-013 ++ MJS = 0.1192 ++ VJS = 0.51 ++ FC = 0.2723 ++ KF = 2.77E-011 ++ AF = 1.92) +*************************************************************** +* +.ENDS BFP650 + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 12 GHZ +* >>> BFP720 <<< +* (C) 2012 Infineon Technologies AG +* Version 3.1 JULY 2012 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 420 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* 0°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25°C, GMIN= 1.00e-12 +*BFP720 C B E1 E2 + +.SUBCKT BFP720 1 2 3 4 +* +CBEPAR 22 33 1.673E-013 +CBCPAR 22 11 4.302E-014 +CCEPAR 11 33 1.457E-013 +LB 22 20 7.12E-010 +LE 33 30 7.9E-011 +LC 11 10 7.12E-010 +CBEPCK 20 30 6E-014 +CBCPCK 20 10 1.222E-015 +CCEPCK 10 30 6E-014 +LBX 20 2 3.02E-010 +LEX 30 34 2.217E-011 +LCX 10 1 3.02E-010 +* +RPS 33 55 0.1365 +RSub 55 30 800 +* +RE1 34 3 1E-03 +RE2 34 4 1E-03 +* +Q1 11 22 33 55 M_BFP720 +* +Diode_sub 55 11 M_Diode_sub +* +.MODEL M_Diode_sub D( ++ IS = 4.085E-015 ++ N = 1.02 ++ RS = 800 ++ CJO = 4E-014) +* +.MODEL M_BFP720 NPN( ++ TNOM = 25 ++ IS = 7.621E-016 ++ BF = 646.8 ++ NF = 1.017 ++ VAF = 120.2 ++ IKF = 0.08618 ++ ISE = 1.782E-014 ++ NE = 2 ++ BR = 90.95 ++ NR = 1.012 ++ VAR = 1.455 ++ IKR = 0.008585 ++ ISC = 2.278E-014 ++ NC = 1.5 ++ RB = 7.151 ++ IRB = 0 ++ RBM = 1.031 ++ RE = 0.321 ++ RC = 5.9 ++ XTB = -2.407 ++ EG = 1.11 ++ XTI = 0.3 ++ CJE = 6.754E-014 ++ VJE = 1.064 ++ MJE = 0.1384 ++ TF = 2.611E-012 ++ XTF = 3.2 ++ VTF = 2.294 ++ ITF = 0.7341 ++ PTF = 0.1 ++ CJC = 4.36E-014 ++ VJC = 1.073 ++ MJC = 0.9219 ++ XCJC = 0.5 ++ TR = 2.035E-009 ++ CJS = 7.013E-014 ++ MJS = 0.09104 ++ VJS = 1.063 ++ FC = 0.5 ++ KF = 3.4E-012 ++ AF = 1.5) +*************************************************************** +* +.ENDS BFP720 + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP720ESD <<< +* (C) 2010 Infineon Technologies AG +* Version 1.0 Juni 2010 +*************************************************************** +* - Please use the global SPICE parameter TEMP to set the junction +* temperature of this device in your circuit to get correct DC +* simulation results. +* - TEMP is calculated by TEMP=TA+P*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated power +* P=VCE*IC (IC collector current, VCE collector-emitter voltage). +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 415 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature. +* Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP720ESD C B E1 E2 +.SUBCKT BFP720ESD 1 2 31 32 +* +CBEPAR 22 33 1.048E-013 +CBCPAR 22 11 2.58E-014 +CCEPAR 11 33 2.737E-013 +LB 22 20 6.327E-010 +LE 33 30 1.864E-010 +LC 11 10 5.957E-010 +CBEPCK 20 30 9.242E-014 +CBCPCK 20 10 1.779E-015 +CCEPCK 10 30 8.276E-014 +LBX 20 2 3.338E-010 +LEX 30 3 9.323E-011 +LCX 10 1 2.42E-010 +* +R_Tr 44 4 683.3 +* +D1 33 25 M_D1 +D2 4 25 M_D2 +* +RBLfdb 22 25 1.828 +RPS 33 4 0.1123 +RSUB 30 4 0.05469 +* +D3 4 15 M_D3 +D4 23 33 M_D4 +D5 23 15 M_D5 +* +RLDNBL 15 11 6.471 +* +RE1 3 31 1E-03 +RE2 3 32 1E-03 +* +Q1 11 22 33 44 M_BFP720ESD +* +* +.MODEL M_D1 D( ++ IS=2.5E-017 ++ N=1.02 ++ RS=6.1 ++ CJO=1.968E-014) +* +* +.MODEL M_D2 D( ++ IS=2E-018 ++ N=1.02 ++ RS=4170 ++ CJO=4.284E-015) +* +* +.MODEL M_D3 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=1380 ++ CJO =9.378E-014) +* +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=0.2 ++ CJO =3.128E-014) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =5.321E-014) +* +* +* +* +.MODEL M_BFP720ESD NPN( ++ TNOM = 25 ++ IS = 7.612E-016 ++ BF = 518.4 ++ NF = 1.026 ++ VAF = 157.5 ++ IKF = 0.05529 ++ ISE = 5.344E-015 ++ NE = 1.829 ++ BR = 264.6 ++ NR = 0.9669 ++ VAR = 2.278 ++ IKR = 0.002409 ++ ISC = 4.758E-015 ++ NC = 1.568 ++ RB = 8.442 ++ IRB = 0 ++ RBM = 0.1186 ++ RE = 0.05132 ++ RC = 2.182 ++ XTB = -2.1 ++ EG = 1.11 ++ XTI = 0.1 ++ CJE = 5.895E-014 ++ VJE = 1 ++ MJE = 0.9539 ++ TF = 2.521E-012 ++ XTF = 17.49 ++ VTF = 0.5295 ++ ITF = 0.5638 ++ PTF = 4.667 ++ CJC = 8.027E-014 ++ VJC = 0.4174 ++ MJC = 0.3969 ++ XCJC = 0.4894 ++ TR = 1.793E-009 ++ CJS = 5.433E-014 ++ MJS = 0.6481 ++ VJS = 0.6332 ++ FC = 0.7712 ++ KF = 1.264E-010 ++ AF = 1.672) +*************************************************************** +* +* +.ENDS BFP720ESD + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 12 GHZ +* >>> BFP720F <<< +* (C) 2016 Infineon Technologies AG +* Version 3.2 May 2016 +*************************************************************** +*.OPTION GMIN= 1.00e-12 +*BFP720F 111 22 31 32 +.SUBCKT BFP720F 111 22 31 32 +* +CBEPAR 2 3 2.472E-013 +CBCPAR 2 10 2.305E-014 +CCEPAR 10 3 1.782E-013 +LEx 30 33 5.158E-015 +LBx 20 22 4.607E-010 +LCx 11 111 1.956E-012 +CBEPCK 20 30 5.382E-014 +CBCPCK 11 20 7.955E-015 +CCEPCK 11 30 5.43E-014 +LB 2 20 5.778E-012 +LE 3 30 6.499E-011 +LC 10 11 6.19E-010 +* +RE1 33 31 1E-03 +RE2 33 32 1E-03 +* +RSub 4 30 260 +Rcx 1 10 1 +* +Diode_sub 4 1 M_Diode_sub +* +.MODEL M_Diode_sub D( ++ IS = 2.8E-017 ++ N = 1.12056 ++ RS = 1380 ++ CJO = 4E-014 ++ TNOM = 25) +* +Q1 1 2 3 4 M_BFP720F +* +.MODEL M_BFP720F NPN( ++ TNOM = 25 ++ IS = 4.011E-016 ++ BF = 783.1 ++ NF = 0.9902 ++ VAF = 85.4 ++ IKF = 0.1076 ++ ISE = 3.207E-015 ++ NE = 1.72 ++ BR = 96.7489 ++ NR = 0.988174 ++ VAR = 1.299 ++ IKR = 0.00957834 ++ ISC = 2.75941E-016 ++ NC = 1.89506 ++ RB = 1.857 ++ IRB = 0.000703 ++ RBM = 0.9318 ++ RE = 0.2409 ++ RC = 20 ++ XTB = -2.482 ++ EG = 1.11 ++ XTI = 0.808 ++ CJE = 1.274E-014 ++ VJE = 0.9206 ++ MJE = 0.7053 ++ TF = 1.787E-012 ++ XTF = 4.073 ++ VTF = 0.3278 ++ ITF = 0.0008605 ++ PTF = 1.208E-012 ++ CJC = 2.029E-014 ++ VJC = 0.01 ++ MJC = 3.12E-005 ++ XCJC = 0.647 ++ TR = 6E-010 ++ CJS = 7.762E-014 ++ MJS = 0.07466 ++ VJS = 0.1179 ++ FC = 0.8156 ++ KF = 2.56E-011 ++ AF = 1.8) +*************************************************************** +* +* +.ENDS BFP720F + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP720FESD <<< +* (C) 2012 Infineon Technologies AG +* Version 3.1 JULY 2012 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 405 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP720FESD C B E1 E2 + +.SUBCKT BFP720FESD 1 2 3 4 +* +* +CBEPAR 22 33 1.873E-013 +CBCPAR 22 11 4.3E-014 +CCEPAR 11 33 2.059E-013 +LB 22 20 4.14E-010 +LE 33 30 4.8E-011 +LC 11 10 4.188E-010 +CBEPCK 20 30 5E-014 +CBCPCK 20 10 2E-015 +CCEPCK 10 30 5E-014 +LBX 20 2 177E-12 +LEX 30 34 25.00E-12 +LCX 10 1 177E-12 +* +RE1 34 3 1E-03 +RE2 34 4 1E-03 +* +D1 33 25 M_D1 +D2 55 25 M_D2 +RBLfdb 22 25 3.2 +RPS 33 55 0.4524 +RSUB 30 55 800 +D3 55 15 M_D3 +D4 23 33 M_D4 +D5 23 15 M_D5 +RLDNBL 15 11 14.8 +* +* +Q1 11 22 33 55 M_BFP720FESD +* +* +.MODEL M_D1 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=6.1 ++ CJO=4E-014 ++ TNOM= 25) +* +* +.MODEL M_D2 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4170 ++ CJO=4.5E-014 ++ TNOM= 25) +* +* +.MODEL M_D3 D( ++ IS=7.835E-016 ++ N=1.053 ++ RS=1380 ++ CJO =9.5E-014 ++ TNOM= 25) +* +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=0.2 ++ CJO =3E-014 ++ TNOM= 25) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =3E-014 ++ TNOM= 25) +* +* +.MODEL M_BFP720FESD NPN( ++ TNOM= 25 ++ IS = 7.621E-016 ++ BF = 719.4 ++ NF = 1.017 ++ VAF = 120.2 ++ IKF = 0.08618 ++ ISE = 2.328E-014 ++ NE = 2 ++ BR = 307.1 ++ NR = 1.012 ++ VAR = 1.455 ++ IKR = 0.008585 ++ ISC = 2.278E-014 ++ NC = 1.5 ++ RB = 7.151 ++ IRB = 0 ++ RBM = 1.031 ++ RE = 0.321 ++ RC = 5.9 ++ XTB = -1.7 ++ EG = 1.11 ++ XTI = 0.1 ++ CJE = 6.754E-014 ++ VJE = 1.064 ++ MJE = 0.1384 ++ TF = 2.22714E-012 ++ XTF = 3.2 ++ VTF = 2.294 ++ ITF = 0.7341 ++ PTF = 0.1 ++ CJC = 4.36E-014 ++ VJC = 1.073 ++ MJC = 0.9219 ++ XCJC = 0.5 ++ TR = 2.035E-009 ++ CJS = 7.013E-014 ++ MJS = 0.09104 ++ VJS = 1.063 ++ FC = 0.5 ++ KF = 3.4E-012 ++ AF = 1.5) +*************************************************************** +* +* +.ENDS BFP720FESD + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP740 <<< +* (C) 2013 Infineon Technologies AG +* Version 3.1 April 2013 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 380 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP740 C B E1 E2 +.SUBCKT BFP740 1 2 3 4 +* +* +CBEPAR 22 33 1.67948E-013 +CBCPAR 22 11 4.00262E-014 +CCEPAR 11 33 2.38872E-013 +LE 33 30 2.34376E-010 +LB 22 20 7.31903E-010 +LC 11 10 5.64051E-010 +CBEPCK 20 30 4E-014 +CBCPCK 20 10 1E-015 +CCEPCK 10 30 4E-014 +LBX 20 2 2.5E-010 +LEX 30 35 7.95105E-011 +LCX 10 1 2.5E-010 +RSUB 30 5 0.01 +RSUBNPN 55 5 648.513 +Rpsinker 5 33 0.32 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +Q1 11 22 33 55 M_BFP740 +* +.MODEL M_BFP740 NPN( ++ TNOM = 25 ++ IS = 6.258E-016 ++ BF = 731.2 ++ NF = 0.9957 ++ VAF = 380.1 ++ IKF = 0.1155 ++ ISE = 3.922E-015 ++ NE = 1.728 ++ BR = 115 ++ NR = 0.9945 ++ VAR = 1.587 ++ IKR = 0.03122 ++ ISC = 3.205E-015 ++ NC = 2 ++ RB = 5.60166 ++ IRB = 0 ++ RBM = 1.12059 ++ RE = 0.622318 ++ RC = 4.121 ++ XTB = -2.154 ++ EG = 1.09 ++ XTI = 2.728 ++ CJE = 2.271E-013 ++ VJE = 0.6271 ++ MJE = 0.08129 ++ TF = 2.2263E-012 ++ XTF = 2.66 ++ VTF = 0.656428 ++ ITF = 0.244 ++ PTF = 0.1 ++ CJC = 4.78953E-014 ++ VJC = 1 ++ MJC = 0.00831201 ++ XCJC = 1 ++ TR = 1E-009 ++ CJS = 1.158E-013 ++ MJS = 0.2309 ++ VJS = 0.5201 ++ FC = 0.77 ++ KF = 8.93053E-017 ++ AF = 1.51228) +*************************************************************** +* +* +.ENDS BFP740 + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP740ESD <<< +* (C) 2011 Infineon Technologies AG +* Version 2.1 June 2011 +*************************************************************** +* - Please use the global SPICE parameter TEMP to set the junction +* temperature of this device in your circuit to get correct DC +* simulation results. +* - TEMP is calculated by TEMP=TA+P*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated power +* P=VCE*IC (IC collector current, VCE collector-emitter voltage). +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 325 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note 'Thermal Resistance Calculation' AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature. +* Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP740ESD C B E1 E2 +.SUBCKT BFP740ESD 1 2 3 4 +* +CBEPAR 22 33 3.7806E-013 +CBCPAR 22 11 8E-014 +CCEPAR 11 33 3.24147E-013 +LB 22 20 7.18664E-010 +LE 33 30 4.56769E-011 +LC 11 10 5.64429E-010 +CBEPCK 20 30 1.3E-013 +CBCPCK 20 10 1E-015 +CCEPCK 10 30 2.1553E-014 +LBX 20 2 2.6238E-010 +LEX 30 35 1.10378E-010 +LCX 10 1 1.55253E-010 +* +R_Tr 55 5 307.5 +* +D1 33 25 M_D1 +D2 5 25 M_D2 +* +RBLfdb 22 25 3.2 +RPS 33 5 0.115215 +RSUB 30 5 0.06119 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +D3 5 15 M_D3 +D4 23 33 M_D4 +D5 23 15 M_D5 +* +RLDNBL 15 11 14.8 +* +* +Q1 11 22 33 55 M_BFP740ESD +* +* +.MODEL M_D1 D( ++ IS=3.5E-015 ++ N=1 ++ RS=6.1 ++ CJO=1E-014) +* +* +.MODEL M_D2 D( ++ IS=800E-018 ++ N=1 ++ RS=4170 ++ CJO=2.5E-014) +* +* +.MODEL M_D3 D( ++ IS=800E-018 ++ N=1.02 ++ RS=1380 ++ CJO =3E-014) +* +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=1 ++ RS=0.2 ++ CJO =3E-014) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =3E-014) +* +* +* +* +.MODEL M_BFP740ESD NPN( ++ TNOM = 25 ++ IS = 9.909E-016 ++ BF = 400.1 ++ NF = 1.03 ++ VAF = 175.2 ++ IKF = 0.04564 ++ ISE = 1.582E-013 ++ NE = 2.447 ++ BR = 263.9 ++ NR = 0.9644 ++ VAR = 10.96 ++ IKR = 0.002403 ++ ISC = 4.746E-015 ++ NC = 1.564 ++ RB = 6.30562 ++ IRB = 0.001 ++ RBM = 0.02485 ++ RE = 0.1001 ++ RC = 5.288 ++ XTB = -2.1 ++ EG = 1.1 ++ XTI = 0.1073 ++ CJE = 5.519E-014 ++ VJE = 0.7943 ++ MJE = 0.218 ++ TF = 2.15E-012 ++ XTF = 110.8 ++ VTF = 10 ++ ITF = 2.408 ++ PTF = 1.6 ++ CJC = 5.239E-014 ++ VJC = 0.6435 ++ MJC = 0.8443 ++ XCJC = 1 ++ TR = 3.25E-008 ++ CJS = 2.817E-013 ++ MJS = 0.3634 ++ VJS = 0.4952 ++ FC = 0.5 ++ KF = 7.32E-010 ++ AF = 1.948) +*************************************************************** +* +* +.ENDS BFP740ESD + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP740F <<< +* (C) 2012 Infineon Technologies AG +* Version 1.1 November 2012 +*************************************************************** +* - Please use the global SPICE parameter TEMP to set the junction +* temperature of this device in your circuit to get correct DC +* simulation results. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated power +* P=VCE*IC (IC collector current, VCE collector-emitter voltage). +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 300 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note -Thermal Resistance Calculation- AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature. +* Please do not change this value. +*************************************************************** + +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP740F C B E1 E2 +.SUBCKT BFP740F 1 2 3 4 +* +CBEPAR 22 33 1.528E-013 +CBCPAR 22 11 6.274E-014 +CCEPAR 11 33 1.958E-013 +LE 33 30 1.588E-010 +LB 22 20 3.61986E-010 +LC 11 10 3.38494E-010 +CBEPCK 20 30 3.5E-014 +CBCPCK 20 10 1E-015 +CCEPCK 10 30 3.5E-014 +LBX 20 2 1.78E-010 +LEX 30 35 5.40267E-011 +LCX 10 1 1.78E-010 +RSUB 30 5 0.0182719 +RSUBNPN 55 5 213.779 +Rpsinker 5 33 0.276699 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +Q1 11 22 33 55 M_BFP740F +* +.MODEL M_BFP740F NPN( ++ TNOM = 25 ++ IS = 1.249E-015 ++ BF = 987.1 ++ NF = 1.002 ++ VAF = 380.1 ++ IKF = 0.1898 ++ ISE = 3.488E-015 ++ NE = 1.709 ++ BR = 115 ++ NR = 1.01 ++ VAR = 1.229 ++ IKR = 0.02753 ++ ISC = 3.205E-015 ++ NC = 2 ++ RB = 7.015 ++ IRB = 6.026E-005 ++ RBM = 1.974 ++ RE = 0.18 ++ RC = 4.121 ++ XTB = -2.7 ++ EG = 1.09 ++ XTI = 0.1 ++ CJE = 2.531E-013 ++ VJE = 0.9286 ++ MJE = 0.06125 ++ TF = 2.331E-012 ++ XTF = 1.159 ++ VTF = 0.5242 ++ ITF = 0.3991 ++ PTF = 0.1 ++ CJC = 5.452E-014 ++ VJC = 0.4808 ++ MJC = 0.5812 ++ XCJC = 1 ++ TR = 1.532E-009 ++ CJS = 1.585E-013 ++ MJS = 0.2454 ++ VJS = 1 ++ FC = 0.2329 ++ KF = 1.616E-021 ++ AF = 1.677) +*************************************************************** +* +.ENDS BFP740F + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP740FESD <<< +* (C) 2011 Infineon Technologies AG +* Version 2.1 November 2011 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 315 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP740FESD C B E1 E2 +.SUBCKT BFP740FESD 1 2 3 4 +* +* +CBEPAR 22 33 2.238E-013 +CBCPAR 22 11 3.747E-014 +CCEPAR 11 33 1.739E-014 +LB 22 20 6.808E-010 +LE 33 30 5.756E-011 +LC 11 10 3.687E-010 +CBEPCK 20 30 2.474E-014 +CBCPCK 20 10 1.304E-015 +CCEPCK 10 30 1.148E-014 +LBX 20 2 5.452E-015 +LEX 30 35 4.806E-011 +LCX 10 1 3.738E-011 +* +* +* +D1 33 25 M_D1 +D2 55 25 M_D2 +RBLfdb 22 25 3.2 +RPS 33 55 0.5524 +RSUB 30 55 0.3417 +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +D3 55 15 M_D3 +D4 23 33 M_D4 +D5 23 15 M_D5 +RLDNBL 15 11 14.8 +* +* +Q1 11 22 33 55 M_BFP740FESD +* +* +.MODEL M_D1 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=6.1 ++ CJO=4E-014) +* +.MODEL M_D2 D( ++ IS=800E-018 ++ N=1 ++ RS=4170 ++ CJO=2.5E-014) +* +* +.MODEL M_D3 D( ++ IS=800E-018 ++ N=1.02 ++ RS=1380 ++ CJO =3E-014) +* +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=0.2 ++ CJO =3E-014) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =3E-014) +* +* +* +* +.MODEL M_BFP740FESD NPN( ++ TNOM = 25 ++ IS = 1.136E-015 ++ BF = 738.2 ++ NF = 1.014 ++ VAF = 355.5 ++ IKF = 0.1325 ++ ISE = 5.97E-015 ++ NE = 1.737 ++ BR = 89.78 ++ NR = 0.98 ++ VAR = 1.396 ++ IKR = 0.1924 ++ ISC = 3.85E-015 ++ NC = 1.5 ++ RB = 3.631 ++ IRB = 0 ++ RBM = 2.02 ++ RE = 0.05983 ++ RC = 6.855 ++ XTB = -2.154 ++ EG = 1.11 ++ XTI = 2.728 ++ CJE = 1.08E-013 ++ VJE = 0.5522 ++ MJE = 0.2709 ++ TF = 1.596E-012 ++ XTF = 7.3788 ++ VTF = 2.70313 ++ ITF = 0.712422 ++ PTF = 0.2896 ++ CJC = 7.551E-014 ++ VJC = 0.9845 ++ MJC = 0.4393 ++ XCJC = 0.6466 ++ TR = 2.3E-007 ++ CJS = 6.09E-013 ++ MJS = 0.1942 ++ VJS = 0.7431 ++ FC = 0.8156 ++ KF = 732E-12 ++ AF = 1.948) +*************************************************************** +* +* +.ENDS BFP740FESD + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP750 <<< +* (C) 2010 Infineon Technologies AG +* Version 2.1 September 2010 +*************************************************************** +* - Please use the global SPICE parameter TEMP to set the junction +* temperature of this device in your circuit to get correct DC +* simulation results. +* - TEMP is calculated by TEMP=TA+P*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated power +* P=VCE*IC (IC collector current, VCE collector-emitter voltage). +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 360 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note 'Thermal Resistance Calculation' AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature. +* Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP750 C B E1 E2 +.SUBCKT BFP750 1 2 3 4 +* +* +CBEPAR 22 33 2.718E-013 +CBCPAR 22 11 1.398E-013 +CCEPAR 11 33 2.07221E-015 +LB 22 20 9.917E-010 +LC 11 10 7.02587E-011 +CBEPCK 20 30 1.819E-014 +CBCPCK 20 10 3.736E-018 +CCEPCK 10 30 3.99247E-013 +LBX 20 2 6.738E-015 +LEX 30 35 9.035E-011 +LCX 10 1 8.402E-010 +RSUB 30 5 0.19 +RSUBNPN 55 5 578 +Rpsinker 5 33 0.16 +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +Q1 11 22 33 55 M_BFP750 +* +* +* +.MODEL M_BFP750 NPN( ++ TNOM = 25 ++ IS = 3.079E-015 ++ BF = 624.106 ++ NF = 1.011 ++ VAF = 150.2 ++ IKF = 0.245321 ++ ISE = 1.31E-014 ++ NE = 1.666 ++ BR = 138.7 ++ NR = 0.98 ++ VAR = 1.727 ++ IKR = 0.1924 ++ ISC = 3.85E-015 ++ NC = 1.5 ++ RB = 2.891 ++ IRB = 0.000889 ++ RBM = 1.504 ++ RE = 0.2121 ++ RC = 4.472 ++ XTB = -2.066 ++ EG = 1.034 ++ XTI = 0.808 ++ CJE = 6.905E-013 ++ VJE = 1.274 ++ MJE = 0.3898 ++ TF = 1.9094E-012 ++ XTF = 5.245 ++ VTF = 1.3 ++ ITF = 1.6 ++ PTF = 0.5287 ++ CJC = 2.491E-013 ++ VJC = 0.5152 ++ MJC = 0.4138 ++ XCJC = 0.6466 ++ TR = 5.76636E-008 ++ CJS = 4.70074E-013 ++ MJS = 0.4784 ++ VJS = 0.4645 ++ FC = 0.8156 ++ KF = 2.0E-011 ++ AF = 1.6) +*************************************************************** +* +* +.ENDS BFP750 + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP760 <<< +* (C) 2012 Infineon Technologies AG +* Version 1.1 November 2012 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 230 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP760 C B E1 E2 +.SUBCKT BFP760 1 2 3 4 +* +* +CBEPAR 22 33 1.054E-013 +CBCPAR 22 11 3.5E-014 +CCEPAR 11 33 2.4E-013 +LE 33 30 1.093E-010 +LB 22 20 5.084E-010 +LC 11 10 5.3E-010 +CBEPCK 20 30 4E-014 +CBCPCK 20 10 1E-015 +CCEPCK 10 30 4E-014 +LBX 20 2 2.4E-010 +LEX 30 35 7.649E-011 +LCX 10 1 2.4E-010 +RSUB 30 5 0.19 +RSUBNPN 55 5 213.3 +Rpsinker 5 33 0.16 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +Q1 11 22 33 55 M_BFP760 +* +.MODEL M_BFP760 NPN( ++ TNOM = 25 ++ IS = 1.431E-015 ++ BF = 643.3 ++ NF = 1 ++ VAF = 482.4 ++ IKF = 0.1283 ++ ISE = 6.142E-015 ++ NE = 1.671 ++ BR = 132.5 ++ NR = 1 ++ VAR = 1.898 ++ IKR = 0.04884 ++ ISC = 3.034E-015 ++ NC = 2 ++ RB = 5 ++ IRB = 0 ++ RBM = 1.33 ++ RE = 0.1844 ++ RC = 4.861 ++ XTB = -2.428 ++ EG = 1.104 ++ XTI = 0 ++ CJE = 5.559E-013 ++ VJE = 1 ++ MJE = 0.04358 ++ TF = 1.951E-012 ++ XTF = 35.21 ++ VTF = 1.518 ++ ITF = 4 ++ PTF = 0.1 ++ CJC = 1.618E-013 ++ VJC = 0.4 ++ MJC = 0.2341 ++ XCJC = 0.7 ++ TR = 1.6E-009 ++ CJS = 2.721E-013 ++ MJS = 0.2237 ++ VJS = 0.5 ++ FC = 0.3851 ++ KF = 6.44E-017 ++ AF = 1.6) +*************************************************************** +* +* +.ENDS BFP760 + + + + +*************************************************************** +* Comments for the user: +* The VBIC Model includes the self heating effect and the user can switch selfheating on or off. +* a) no self heating: set Rth = 0 +* b) with self heating: set Rth=80K/W + Rth_PCB (customer) +* Note: Rth = 80 K/W includes only the thermal resistance of die and package and +* the thermal resistance of the customer PCB must be added (Rth=80K/W + Rth_PCB) + +* Infineon Technologies AG +* VBIC MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP780 <<< +* (C) 2015 Infineon Technologies AG +* Version 1.1 October 2015 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP780 C B E1 E2 +.SUBCKT BFP780 1 2 3 4 +* +CCEPAR 11 33 800E-015 +* +LEx 30 35 3E-011 +LBx 20 2 3E-011 +LCx 10 1 3E-011 +* +CBPAD 22 44 30E-015 +CCPAD 11 44 30E-015 +CEPAD 33 44 30E-015 +* +LB 22 20 777E-12 +LC 10 11 777E-12 +* +CBEPCK 20 30 5.703E-015 +CBCPCK 10 20 1.497E-014 +CCEPCK 10 30 6.032E-014 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +Rsub1 44 30 0.2144 +Rps 44 33 0.07306 +* +D1 33 22 Diode_fb +D2 44 22 Diode_fbd +* +.MODEL Diode_fb D( ++ IS=3.5E-015 ++ N=1 ++ CJO=10e-15 ++ RS=6.1 ++ Tnom=25) +* +.MODEL Diode_fbd D( ++ IS=1E-015 ++ N=1 ++ CJO=10E-15 ++ RS=1 ++ Tnom=25) +* +Q1 11 22 33 44 M_BFP780 +* +.MODEL M_BFP780 NPN Level=4( ++ Tnom=25 ++ Cbeo=2.47E-012 ++ Cje=561.3E-015 ++ Pe=0.7 ++ Me=0.333 ++ Aje=-1 ++ Wbe=1 ++ Cbco=10E-015 ++ Cjc=668.6E-015 ++ Pc=0.54 ++ Mc=0.333 ++ Ajc=-1 ++ Cjep=2.616E-015 ++ Cjcp=900E-015 ++ Ps=0.6 ++ Ms=0.3 ++ Ajs=-0.5 ++ Fc=0.94 ++ Vef=545.4 ++ Ver=3.291 ++ Is=2.3E-015 ++ Nf=0.9855 ++ Ibei=1.893E-018 ++ Nei=0.9399 ++ Iben=4.77E-015 ++ Nen=1.361 ++ Ikf=1 ++ Nr=0.9912 ++ Ibci=157.5E-018 ++ Nci=1.1 ++ Ibcn=4.929E-015 ++ Ncn=1.463 ++ Ikr=0.01178 ++ Wsp=1 ++ Isp=1E-015 ++ Nfp=1 ++ Ibcip=1E-015 ++ Ncip=1.029 ++ Ibcnp=1E-015 ++ Ncnp=1 ++ Ikp=1E-3 ++ Ibeip=1E-015 ++ Ibenp=1E-015 ++ Re=0.15 ++ Rcx=0.01 ++ Rci=2.665 ++ Qco=1E-015 ++ Vo=0.0005022 ++ Gamm=5.659E-012 ++ Hrcf=0.21 ++ Rbx=5 ++ Rbi=1.964 ++ Rbp=265.5 ++ Rs=26.56 ++ Avc1=3.97 ++ Avc2=29.52 ++ Tf=1.6E-012 ++ Qtf=50E-3 ++ Xtf=30 ++ Vtf=0.7 ++ Itf=1 ++ Tr=1E-015 ++ Td=500E-015 ++ Cth=0 ++ Rth=80 ++ Ea=1.12 ++ Eaie=1.12 ++ Eaic=1.12 ++ Eais=1 ++ Eane=1.12 ++ Eanc=1.12 ++ Eans=1 ++ Xre=0 ++ Xrb=0 ++ Xrc=0 ++ Xrs=0 ++ Xvo=0 ++ Xis=-1.631 ++ Xii=0 ++ Xin=0 ++ Tnf=0 ++ Tavc=0.002613 ++ Kfn=0 ++ Afn=1 ++ Bfn=1 ) +*************************************************************** +* +.ENDS BFP780 + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 12 GHZ +* >>> BFP840ESD <<< +* (C) 2012 Infineon Technologies AG +* Version 2.1 MAR 2012 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the junction +* temperature of the device in your application to get correct simulation results. +* This procedure is necessary because the GP model does not consider the +* self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 551 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP840ESD C B E1 E2 +.SUBCKT BFP840ESD 1 2 3 4 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +CBEPAR 22 33 1.112E-013 +CBCPAR 22 11 2.935E-014 +CCEPAR 11 33 2.803E-013 +LB 22 20 7.403E-010 +LE 33 30 2.5E-010 +LC 11 10 6.756E-010 +CBEPCK 20 30 4E-014 +CBCPCK 20 10 1E-015 +CCEPCK 10 30 4E-014 +LBX 20 2 2E-010 +LEX 30 35 8.453E-011 +LCX 10 1 2E-010 +* +R_CS_npn 55 5 500 +* +D1 33 25 M_D1 +D2 5 25 M_D2 +* +R_NBL_fdb 22 25 3.2 +R_PS 33 5 0.03 +RSUB 30 5 0.02 +* +D3 5 15 M_D3 +D4 23 33 M_D4 +D5 23 15 M_D5 +* +R_NBL_e11g 15 11 1.8 +* +Q1 11 22 33 55 M_BFP840ESD +* +.MODEL M_D1 D( ++ IS=3E-015 ++ N=1 ++ RS=2.846 ++ CJO=4E-014) +* +.MODEL M_D2 D( ++ IS=3E-015 ++ N=1 ++ RS=4170 ++ CJO=4.5E-014) +* +.MODEL M_D3 D( ++ IS=6.911E-016 ++ N=1.1 ++ RS=1380 ++ CJO =9.5E-014) +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=1 ++ RS=0.2 ++ CJO =3E-014) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =3E-014) +* +.MODEL M_BFP840ESD NPN( ++ TNOM = 25 ++ IS = 2.067E-016 ++ BF = 964.2 ++ NF = 1 ++ VAF = 375.1 ++ IKF = 0.1222 ++ ISE = 3.144E-015 ++ NE = 1.82 ++ BR = 133.1 ++ NR = 0.9915 ++ VAR = 1.269 ++ IKR = 0.05566 ++ ISC = 1.165E-015 ++ NC = 2 ++ RB = 16.33 ++ IRB = 0 ++ RBM = 2.967 ++ RE = 0.18 ++ RC = 7.246 ++ XTB = -2.276 ++ EG = 1.11 ++ XTI = 0 ++ CJE = 5.171E-014 ++ VJE = 0.3736 ++ MJE = 0.5112 ++ TF = 1.21432E-012 ++ XTF = 27.91 ++ VTF = 0.344 ++ ITF = 2.119 ++ PTF = 0.0214 ++ CJC = 2E-014 ++ VJC = 0.8537 ++ MJC = 0.6257 ++ XCJC = 0.4894 ++ TR = 1E-010 ++ CJS = 1.369E-013 ++ MJS = 0.5946 ++ VJS = 1.072 ++ FC = 0.4403 ++ KF = 6.38495E-012 ++ AF = 1.43915) +*************************************************************** +* +.ENDS BFP840ESD + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 12 GHZ +* >>> BFP840FESD <<< +* (C) 2012 Infineon Technologies AG +* Version 2.2 April 2016 +* +* Harald Boehm +*************************************************************** +* - Please use the global SPICE parameter TEMP to set the junction +* temperature of this device in your circuit to get correct DC +* simulation results. +* - TEMP is calculated by TEMP=TA+P*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated power +* P=VCE*IC (IC collector current, VCE collector-emitter voltage). +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 541 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note -Thermal Resistance Calculation- AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature. +* Please do not change this value. +*************************************************************** + +* BFP840FESD C B E1 E2 only as a comment +* .OPTION TNOM=25, GMIN= 1.00e-12 / leads to error message during circuit simulation +* Parameter GMIN not known + +*.OPTION TNOM=25 +.SUBCKT BFP840FESD 1 2 3 4 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +CBEPAR 22 33 1.5E-013 +CBCPAR 22 11 3E-014 +CCEPAR 11 33 1.5E-013 +LB 222 20 4.3E-010 +LE 333 30 1.5E-010 +LC 111 10 4.3E-010 +RBs 222 22 1.728 +REs 333 33 2.5 +RCs 111 11 5 +K_BC LB LC 0.001 +K_EB LE LB 0.1 +K_EC LE LC 0.2 +* +CBEPCK 20 30 1.2E-014 +CBCPCK 20 10 1.134E-014 +CCEPCK 10 30 1.2E-014 +LBX 20 2 5E-011 +LEX 30 35 4.851E-011 +LCX 10 1 2.329E-010 +* +R_CS_npn 44 5 0.1 +* +D1 33 25 M_D1 +D2 5 25 M_D2 +* +R_NBL_fbd 22 25 1 +RPS 33 5 0.09 +RSUB 30 5 0.001 +* +D3 5 15 M_D3 +D4 23 33 M_D4 +D5 23 15 M_D5 +* +R_NBL_e11g 15 11 1 +* +.MODEL M_D1 D( ++ IS=3E-015 ++ N=0.9999 ++ RS=2.846 ++ M=0.5499 ++ CJO=1E-014 ++ VJ=0.7 ++ TNOM=25) +* +.MODEL M_D2 D( ++ IS= 3E-015 ++ N= 0.9999 ++ RS= 1208 ++ CJO=5E-015 ++ M= 0.5499 ++ TNOM=25 ++ VJ= 0.7) +* +.MODEL M_D3 D( ++ IS=1E-015 ++ N=1.1 ++ RS=4969 ++ CJO =1E-014 ++ M =0.4997 ++ TNOM=25 ++ VJ=0.7001) +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=0.9999 ++ RS=0.2 ++ CJO =1E-014 ++ M =0.4999 ++ TNOM=25 ++ VJ=0.7) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =1.2E-014 ++ M =0.4999 ++ TNOM=25 ++ VJ=0.7) +* +* +Q1 11 22 33 44 M_BFP840FESD +.MODEL M_BFP840FESD NPN( ++ TNOM = 25 ++ IS = 2.009E-016 ++ BF = 946.1 ++ NF = 1 ++ VAF = 300 ++ IKF = 0.1993 ++ ISE = 6.26E-015 ++ NE = 2 ++ BR = 108 ++ NR = 1 ++ VAR = 1.288 ++ IKR = 0.0007328 ++ ISC = 8.126E-016 ++ NC = 2 ++ RB = 17 ++ IRB = 0 ++ RBM = 1 ++ RE = 0.05 ++ RC = 4.145 ++ XTB = -2.276 ++ EG = 1.11 ++ XTI = 0 ++ CJE = 1.3E-013 ++ VJE = 0.6 ++ MJE = 0.5 ++ TF = 7.494E-013 ++ XTF = 17.49 ++ VTF = 0.5295 ++ ITF = 1.025 ++ PTF = 4.667 ++ CJC = 1.1E-014 ++ VJC = 0.67 ++ MJC = 0.88 ++ XCJC = 0.4894 ++ TR = 1.793E-009 ++ CJS = 3E-013 ++ MJS = 0.5 ++ VJS = 0.7 ++ FC = 0.352 ++ KF = 6.4E-012 ++ AF = 1.44) +*************************************************************** +* +.ENDS BFP840FESD + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP842ESD <<< +* (C) 2012 Infineon Technologies AG +* Version 1.1 June 2012 +* +* Harald Boehm +*************************************************************** +* - Please use the global SPICE parameter TEMP to set the junction +* temperature of this device in your circuit to get correct DC +* simulation results. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated power +* P=VCE*IC (IC collector current, VCE collector-emitter voltage). +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 324 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note -Thermal Resistance Calculation- AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature. +* Please do not change this value. +*************************************************************** +.SUBCKT BFP842ESD 1 2 3 4 +*BFP842ESD C B E1 E2 only as a comment +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +* +CBEPAR 22 33 2.863E-013 +CBCPAR 22 11 6.361E-014 +CCEPAR 11 33 5.95E-015 +LB 222 20 1.069E-010 +LE 333 30 2.904E-010 +LC 111 10 2.688E-010 +RBs 222 22 0.5 +REs 333 33 0.3 +RCs 111 11 0.5 +* +CE_PAD 33 50 6.447E-013 +* +CBEPCK 20 30 2.346E-013 +CBCPCK 20 10 7.752E-016 +CCEPCK 10 30 4.235E-013 +LBX 20 2 8.377E-010 +LEX 30 35 6.799E-011 +LCX 10 1 8.371E-010 +* +R_CS_npn 44 150 500 +* +D1 50 25 M_D1 +D2 150 25 M_D2 +* +R_NBL_fbd 22 25 1 +RPS 50 150 0.76 +RSUB 30 150 0.001 +* +D3 150 15 M_D3 +D4 23 50 M_D4 +D5 23 15 M_D5 +* +R_NBL_e11g 15 11 1 +* +.MODEL M_D1 D( ++ IS=3E-015 ++ N=0.9999 ++ RS=2.846 ++ M=0.5499 ++ CJO=1E-014 ++ VJ=0.7 +* +.MODEL M_D2 D( ++ IS= 3E-015 ++ N= 0.9999 ++ RS= 1208 ++ CJO=5E-015 ++ M= 0.5499 ++ VJ= 0.7) +* +.MODEL M_D3 D( ++ IS=1E-015 ++ N=1.1 ++ RS=4969 ++ CJO =1E-014 ++ M =0.4997 ++ VJ=0.7001) +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=0.9999 ++ RS=0.2 ++ CJO =1E-014 ++ M =0.4999 ++ VJ=0.7) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =1.2E-014 ++ M =0.4999 ++ VJ=0.7) +* +* +Q1 11 22 33 44 M_BFP842ESD +.MODEL M_BFP842ESD NPN( ++ TNOM = 25 ++ IS = 5.847E-016 ++ BF = 735 ++ NF = 1.017 ++ VAF = 200 ++ IKF = 0.1311 ++ ISE = 1.004E-013 ++ NE = 2.466 ++ BR = 119.7 ++ NR = 1.01 ++ VAR = 1.418 ++ IKR = 0.006107 ++ ISC = 1.203E-015 ++ NC = 1.764 ++ RB = 5.459 ++ IRB = 0 ++ RBM = 1.142 ++ RE = 0.3 ++ RC = 4.999 ++ XTB = -2.532 ++ EG = 1.1 ++ XTI = -1.865 ++ CJE = 1.67E-014 ++ VJE = 0.5111 ++ MJE = 0.5928 ++ TF = 1.3E-012 ++ XTF = 20 ++ VTF = 1.248 ++ ITF = 0.7412 ++ PTF = 0.1867 ++ CJC = 1.125E-014 ++ VJC = 0.6509 ++ MJC = 1.051 ++ XCJC = 0.4894 ++ TR = 1.099E-009 ++ CJS = 5.021E-013 ++ MJS = 0.2447 ++ VJS = 0.6438 ++ FC = 0.5 ++ KF = 6.4E-012 ++ AF = 1.44) +*************************************************************** +* +.ENDS BFP842ESD + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 12 GHZ +* >>> BFP843 <<< +* (C) 2013 Infineon Technologies AG +* Version 1.1 MAR 2013 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 405 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** + +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP843 C B E1 E2 +.SUBCKT BFP843 1 2 3 4 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +CBEPAR 22 33 3.005E-013 +CBCPAR 22 11 4.552E-014 +CCEPAR 11 33 4.625E-013 +* +Cfeed 11 66 5.2E-012 +Rfeed 66 22 1032 +Cfeedpar 66 33 1.675E-013 +* +LB 22 20 7.965E-010 +LE 33 30 2.56E-010 +LC 11 10 6.465E-010 +CBEPCK 20 30 4E-014 +CBCPCK 20 10 1E-015 +CCEPCK 10 30 4E-014 +LBX 20 2 2.5E-010 +LEX 30 35 9.953E-011 +LCX 10 1 2.5E-010 +* +R_CS_npn 55 5 500 +* +D1 33 25 M_D1 +D2 5 25 M_D2 +* +R_NBL_fdb 22 25 3.2 +R_PS 33 5 0.2 +RSUB 30 5 0.486 +* +D3 5 15 M_D3 +D4 23 33 M_D4 +D5 23 15 M_D5 +* +R_NBL_e11g 15 11 1.8 +* +Q1 11 22 33 55 M_BFP843 +* +.MODEL M_D1 D( ++ IS=3E-015 ++ N=1 ++ RS=2.846 ++ CJO=4E-014) +* +.MODEL M_D2 D( ++ IS=3E-015 ++ N=1 ++ RS=4700 ++ CJO=4.5E-014) +* +.MODEL M_D3 D( ++ IS=6.911E-016 ++ N=1.1 ++ RS=1380 ++ CJO =9.5E-014) +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=1 ++ RS=0.2 ++ CJO =3E-014) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =3E-014) +* +.MODEL M_BFP843 NPN( ++ TNOM = 25 ++ IS = 2.226E-016 ++ BF = 850.3 ++ NF = 0.997 ++ VAF = 375.1 ++ IKF = 0.1713 ++ ISE = 4.539E-015 ++ NE = 1.958 ++ BR = 98.98 ++ NR = 0.9941 ++ VAR = 1.375 ++ IKR = 0.05974 ++ ISC = 1.578E-015 ++ NC = 1.8 ++ RB = 6.217 ++ IRB = 0 ++ RBM = 1.774 ++ RE = 0.329 ++ RC = 7.24 ++ XTB = -2.276 ++ EG = 1.11 ++ XTI = 0 ++ CJE = 8.091E-014 ++ VJE = 0.9141 ++ MJE = 0.06778 ++ TF = 1.02369E-012 ++ XTF = 1 ++ VTF = 0.1832 ++ ITF = 0.5237 ++ PTF = 0.5 ++ CJC = 3.125E-014 ++ VJC = 0.6892 ++ MJC = 0.5349 ++ XCJC = 0.8 ++ TR = 1E-009 ++ CJS = 2.575E-013 ++ MJS = 0.5599 ++ VJS = 0.4343 ++ FC = 0.5715 ++ KF = 3.12E-016 ++ AF = 1.529) +*************************************************************** +* +.ENDS BFP843 + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 12 GHZ +* >>> BFP843F <<< +* (C) 2013 Infineon Technologies AG +* Version 1.1 MAR 2013 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 395 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP843F C B E1 E2 +.SUBCKT BFP843F 1 2 3 4 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +CBEPAR 22 33 2.709E-013 +CBCPAR 22 11 4.093E-014 +CCEPAR 11 33 3.393E-013 +* +Cfeed 11 66 5.2E-012 +Rfeed 66 22 1000 +Cfeedpar 66 33 2.662E-013 +* +LB 22 20 5.524E-010 +LE 33 30 1.501E-010 +LC 11 10 4.66E-010 +CBEPCK 20 30 3E-014 +CBCPCK 20 10 1E-015 +CCEPCK 10 30 3E-014 +LBX 20 2 1.343E-010 +LEX 30 35 7.069E-011 +LCX 10 1 1.444E-010 +* +K_BC LB LC 0.001 +K_EB LE LB 0.1508 +K_EC LE LC 0.1017 +* +R_CS_npn 55 5 500 +* +D1 33 25 M_D1 +D2 5 25 M_D2 +* +R_NBL_fdb 22 25 3.2 +R_PS 33 5 0.2 +RSUB 30 5 0.3859 +* +D3 5 15 M_D3 +D4 23 33 M_D4 +D5 23 15 M_D5 +* +R_NBL_e11g 15 11 1.8 +* +Q1 11 22 33 55 M_BFP843F +* +.MODEL M_D1 D( ++ IS=3E-015 ++ N=1 ++ RS=2.846 ++ CJO=4E-014) +* +.MODEL M_D2 D( ++ IS=3E-015 ++ N=1 ++ RS=4700 ++ CJO=4.5E-014) +* +.MODEL M_D3 D( ++ IS=6.911E-016 ++ N=1.1 ++ RS=1380 ++ CJO =9.5E-014) +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=1 ++ RS=0.2 ++ CJO =3E-014) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =3E-014) +* +.MODEL M_BFP843F NPN( ++ TNOM = 25 ++ IS = 2.226E-016 ++ BF = 850.3 ++ NF = 0.997 ++ VAF = 375.1 ++ IKF = 0.1713 ++ ISE = 5.015E-015 ++ NE = 1.958 ++ BR = 98.98 ++ NR = 0.9941 ++ VAR = 1.375 ++ IKR = 0.05974 ++ ISC = 1.578E-015 ++ NC = 1.8 ++ RB = 6.217 ++ IRB = 0 ++ RBM = 1.774 ++ RE = 0.3424 ++ RC = 7.24 ++ XTB = -2.276 ++ EG = 1.11 ++ XTI = 0 ++ CJE = 8.091E-014 ++ VJE = 0.9141 ++ MJE = 0.06778 ++ TF = 8.467E-013 ++ XTF = 1 ++ VTF = 0.1832 ++ ITF = 0.5237 ++ PTF = 0.5 ++ CJC = 3.125E-014 ++ VJC = 0.6892 ++ MJC = 0.5349 ++ XCJC = 0.8 ++ TR = 1E-009 ++ CJS = 2.575E-013 ++ MJS = 0.5599 ++ VJS = 0.4343 ++ FC = 0.5715 ++ KF = 2.476E-016 ++ AF = 1.517) +*************************************************************** +* +.ENDS BFP843F + + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFQ19S <<< +* (C) 2014 Infineon Technologies AG +* Version 2.1 October 2014 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFQ19S C B E +.SUBCKT BFQ19S 11 22 33 +* +CBEPAR 2 3 1.941E-014 +CBCPAR 2 1 5.476E-013 +CCEPAR 1 3 7.843E-013 +LB 2 20 2.448E-009 +LE 3 30 1.706E-009 +Rci 1 10 0.002258 +CBEPCK 20 30 8.568E-016 +CBCPCK 10 20 1.201E-014 +CCEPCK 10 30 8.448E-014 +LBX 20 22 7.525E-013 +LEX 30 33 1.178E-010 +LCX 10 11 2.449E-010 +* +* +Q1 1 2 3 M_BFQ19S +* +* +.MODEL M_BFQ19S NPN( ++ TNOM = 25 ++ IS = 1.734E-015 ++ BF = 126.2 ++ NF = 0.9968 ++ VAF = 52.15 ++ IKF = 1.035 ++ ISE = 7.715E-015 ++ NE = 1.81 ++ BR = 13.1 ++ NR = 0.9968 ++ VAR = 3.079 ++ IKR = 0.1214 ++ ISC = 6.257E-015 ++ NC = 1.6 ++ RB = 5.552 ++ IRB = 2.4E-005 ++ RBM = 1.524 ++ RE = 0.2261 ++ RC = 1.814 ++ XTB = 0.854 ++ EG = 1.11 ++ XTI = 9.516 ++ CJE = 4.551E-012 ++ VJE = 0.7397 ++ MJE = 0.3271 ++ TF = 2.467E-011 ++ XTF = 4.69 ++ VTF = 6.79 ++ ITF = 1.027 ++ PTF = 9.546E-017 ++ CJC = 1.164E-012 ++ VJC = 0.6791 ++ MJC = 0.3983 ++ XCJC = 0.007944 ++ TR = 3.412E-008 ++ CJS = 0 ++ VJS = 0.3601 ++ MJS = 0.02997 ++ FC = 0.567 ++ KF = 2.2E-14 ++ AF = 1.6) +*************************************************************** +* +* +.ENDS BFQ19S + + + + +*************************************************************** +* Comments for the user: +* The VBIC Model includes the self heating effect and the user can switch selfheating on or off. +* a) no self heating: set Rth = 0 +* b) with self heating: set Rth=20K/W + Rth_PCB (customer) +* Note: Rth = 20 K/W includes only the thermal resistance of die and package and +* the thermal resistance of the customer PCB must be added (Rth=20K/W + Rth_PCB) + +* Infineon Technologies AG +* VBIC MODEL +* VALID UP TO 6 GHZ +* >>> BFQ790 <<< +* (C) 2015 Infineon Technologies AG +* Version 1.0 Juni 2015 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFQ790 C B E + +* without access to the external thermal node (Rth to be adjusted by the customer in the model parameter list for the transistor +.SUBCKT BFQ790 1 2 3 +* +* with access to external thermal node +*.SUBCKT BFQ790 1 2 3 55 +* +CCSPAR 11 44 1.375E-012 +LEx 30 3 4.36882E-011 +LBx 20 2 2.77681E-011 +LCx 10 1 4.265E-011 +CBEPCK 20 30 1.105E-013 +CBCPCK 10 20 1E-014 +CCEPCK 10 30 1E-015 +LB 222 20 1.02449E-009 +LC 10 11 1.89901E-009 +* +RBL 222 22 45 +CBL 222 22 3E-011 +* +Rsub1 44 30 0.000500184 +Rps 44 33 0.102733 +* +* +* without access to the external thermal node +Q1 11 22 33 44 M_BFQ790 +* +* with access to the thermal node +* Q1 11 22 33 44 55 M_BFQ790 +* +.MODEL M_BFQ790 NPN Level=4( ++ Tnom=25 ++ Cbeo=9.31E-012 ++ Cje=7.693E-013 ++ Pe=0.5892 ++ Me=0.3115 ++ Aje=-0.5 ++ Wbe=1 ++ Cbco=1.966E-013 ++ Cjc=1E-015 ++ Pc=0.5095 ++ Mc=0.2797 ++ Ajc=-0.5 ++ Cjep=1.875E-012 ++ Cjcp=2.067E-012 ++ Ps=0.5086 ++ Ms=0.2865 ++ Ajs=-0.5 ++ Fc=0.93 ++ Vef=615.1 ++ Ver=5.61838 ++ Is=9.704E-015 ++ Nf=1.001 ++ Ibei=5E-017 ++ Nei=1.013 ++ Iben=3.609E-014 ++ Nen=1.46 ++ Ikf=2 ++ Nr=0.9958 ++ Ibci=1.001E-017 ++ Nci=1.015 ++ Ibcn=2.918E-014 ++ Ncn=1.399 ++ Ikr=0.2301 ++ Wsp=1 ++ Isp=1E-015 ++ Nfp=1 ++ Ibcip=2E-017 ++ Ncip=1 ++ Ibcnp=1.7E-015 ++ Ncnp=1.67 ++ Ikp=0.0002 ++ Ibeip=7E-017 ++ Ibenp=2.4E-014 ++ Re=0.2 ++ Rcx=0.02559 ++ Rci=1.168 ++ Qco=4E-015 ++ Vo=0.4234 ++ Gamm=2.199E-012 ++ Hrcf=0.1907 ++ Rbx=0.2825 ++ Rbi=1.868 ++ Rbp=0.001 ++ Rs=10 ++ Avc1=1 ++ Avc2=25.84 ++ Tf=3E-012 ++ Qtf=0.6758 ++ Xtf=0.01293 ++ Vtf=0.5 ++ Itf=0.1948 ++ Tr=1E-015 ++ Td=1E-015 ++ Cth=0 ++ Rth=20.05 ++ Ea=1.12 ++ Eaie=1.12 ++ Eaic=1.12 ++ Eais=1.12 ++ Eane=1.12 ++ Eanc=1.12 ++ Eans=1.12 ++ Xre=0 ++ Xrb=0 ++ Xrc=0 ++ Xrs=0 ++ Xvo=0 ++ Xis=1.907 ++ Xii=4.963 ++ Xin=-2.837 ++ Tnf=1E-006 ++ Tavc=0.006705 ++ Kfn=0 ++ Afn=1 ++ Bfn=1 ) +*************************************************************** +* +.ENDS BFQ790 + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFR106 <<< +* (C) 2012 Infineon Technologies AG +* Version 2.1 January 2012 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 110 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR106 C B E +.SUBCKT BFR106 1 2 3 +* +CBEPAR 22 33 2.22E-012 +CBCPAR 22 11 4.288E-013 +CCEPAR 11 33 2.621E-015 +LB 22 20 6.736E-010 +LE 33 30 6.937E-010 +CBEPCK 20 30 1.567E-014 +CBCPCK 11 20 1.975E-013 +CCEPCK 11 30 1.497E-013 +LBX 20 2 7.342E-010 +LEX 30 3 6.492E-010 +LCX 11 1 6.908E-010 +* +Q1 11 22 33 M_BFR106 +* +.MODEL M_BFR106 NPN( ++ TNOM = 25 ++ IS = 1.779E-015 ++ BF = 113.8 ++ NF = 1 ++ VAF = 27.87 ++ IKF = 1.181 ++ ISE = 1.644E-014 ++ NE = 2 ++ BR = 22 ++ NR = 0.9964 ++ VAR = 3.898 ++ IKR = 0.1065 ++ ISC = 8.839E-014 ++ NC = 1.567 ++ RB = 4.5 ++ IRB = 0 ++ RBM = 2.5 ++ RE = 0.07303 ++ RC = 5.1 ++ XTB = 1.303 ++ EG = 1.12 ++ XTI = 6.548 ++ CJE = 4.149E-012 ++ VJE = 0.8551 ++ MJE = 0.4611 ++ TF = 2.345E-011 ++ XTF = 10.29 ++ VTF = 7.452 ++ ITF = 0.5446 ++ PTF = 0.08058 ++ CJC = 9.627E-013 ++ VJC = 0.5893 ++ MJC = 0.4818 ++ XCJC = 0.5631 ++ TR = 1.434E-010 ++ CJS = 0 ++ VJS = 1 ++ MJS = 1 ++ FC = 0.5 ++ KF = 8.22E-015 ++ AF = 1.51) +*************************************************************** +* +.ENDS BFR106 + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFR181W <<< +* (C) 2013 Infineon Technologies AG +* Version 2.1 September 2013 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR181W 11 22 33 +.SUBCKT BFR181W 11 22 33 +* +CBEPAR 2 3 3.153E-013 +CBCPAR 2 1 1.953E-013 +CCEPAR 1 3 2.47E-013 +LE 33 30 1.956E-010 +LB 22 20 2.014E-010 +LC 1 11 3.021E-010 +CBEPCK 20 30 4.406E-014 +CBCPCK 20 1 1E-015 +CCEPCK 1 30 3.836E-014 +LBI 20 2 5.35688E-010 +LEI 30 3 6.16264E-010 +* +Q1 1 2 3 M_BFR181W +* +.MODEL M_BFR181W NPN( ++ TNOM = 25 ++ IS = 8.794E-017 ++ BF = 116.9 ++ NF = 1 ++ VAF = 68.1 ++ IKF = 0.08128 ++ ISE = 3.592E-016 ++ NE = 1.631 ++ BR = 16.5 ++ NR = 0.8776 ++ VAR = 6.876 ++ IKR = 0.2495 ++ ISC = 1.12E-017 ++ NC = 1.653 ++ RB = 8.87993 ++ IRB = 0 ++ RBM = 4.42095 ++ RE = 0.145 ++ RC = 0.7233 ++ XTB = 1.303 ++ EG = 1.11 ++ XTI = 6.548 ++ CJE = 1.481E-013 ++ VJE = 0.7691 ++ MJE = 1.041 ++ TF = 1.45588E-011 ++ XTF = 107.12 ++ VTF = 0.291204 ++ ITF = 0.00428039 ++ PTF = 0 ++ CJC = 1.529E-013 ++ VJC = 0.7546 ++ MJC = 0.3099 ++ XCJC = 1 ++ TR = 1.75281E-008 ++ CJS = 0 ++ MJS = 0 ++ VJS = 0.901 ++ FC = 0.1651 ++ KF = 0 ++ AF = 1) +*************************************************************** +* +* +.ENDS BFR181W + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFR182 <<< +* (C) 2014 Infineon Technologies AG +* Version 2.1 April 2014 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR182 1 2 3 +.SUBCKT BFR182 11 22 33 +* +CBEPAR 2 3 2.851E-013 +CBCPAR 2 1 3.214E-014 +CCEPAR 1 3 1.816E-013 +LE 33 30 6.492E-010 +LB 22 20 7.342E-010 +LC 11 1 6.908E-010 +CBEPCK 20 30 1.567E-014 +CBCPCK 20 1 1.975E-013 +CCEPCK 1 30 1.497E-013 +LBI 20 2 6.736E-010 +LEI 30 3 6.937E-010 +* +Q1 1 2 3 M_BFR182 +* +.MODEL M_BFR182 NPN( ++ TNOM = 25 ++ IS = 2.252E-016 ++ BF = 105.3 ++ NF = 1.013 ++ VAF = 107.9 ++ IKF = 0.1003 ++ ISE = 9.034E-016 ++ NE = 1.719 ++ BR = 9 ++ NR = 1 ++ VAR = 16.96 ++ IKR = 0.075 ++ ISC = 8E-015 ++ NC = 2 ++ RB = 3.961 ++ IRB = 0 ++ RBM = 1.291 ++ RE = 0.1034 ++ RC = 0.4892 ++ XTB = 1.303 ++ EG = 1.11 ++ XTI = 6.548 ++ CJE = 6.989E-013 ++ VJE = 1.295 ++ MJE = 0.6102 ++ TF = 1.614E-011 ++ XTF = 0.2049 ++ VTF = 4.868 ++ ITF = 0.4362 ++ PTF = 0.1029 ++ CJC = 2.364E-013 ++ VJC = 1.101 ++ MJC = 0.4605 ++ XCJC = 0.4261 ++ TR = 1.896E-008 ++ CJS = 0 ++ MJS = 1 ++ VJS = 1 ++ FC = 0.2197 ++ KF = 8.931E-017 ++ AF = 1.512) +*************************************************************** +* +* +.ENDS BFR182 + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFR182W <<< +* (C) 2016 Infineon Technologies AG +* Version 2.2 April 2016 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR182W C B E1 E2 +.SUBCKT BFR182W 11 22 33 +* +* +CBEPAR 2 3 2.24E-013 +CBCPAR 2 1 2.169E-013 +CCEPAR 1 3 2E-013 +LE 33 30 1E-010 +LB 22 20 8E-011 +LC 1 11 3.371E-010 +CBEPCK 20 30 4E-014 +CBCPCK 1 20 4E-014 +CCEPCK 30 1 8E-014 +LBI 20 2 8.794E-010 +LEI 30 3 8.613E-010 +* +Q1 1 2 3 M_BFR182W +* +.MODEL M_BFR182W NPN( ++ TNOM = 25 ++ IS = 1.767E-016 ++ BF = 122.6 ++ NF = 1 ++ VAF = 75.55 ++ IKF = 0.457 ++ ISE = 6.25E-016 ++ NE = 1.653 ++ BR = 11.89 ++ NR = 0.9968 ++ VAR = 2.837 ++ IKR = 0.07193 ++ ISC = 9.862E-015 ++ NC = 2.026 ++ RB = 10.93 ++ IRB = 9.65E-005 ++ RBM = 0.8371 ++ RE = 0.2053 ++ RC = 4 ++ XTB = 1.303 ++ EG = 1.11 ++ XTI = 6.548 ++ CJE = 6.488E-013 ++ VJE = 0.9 ++ MJE = 0.415 ++ TF = 1.346E-011 ++ XTF = 139.2 ++ VTF = 2.182 ++ ITF = 0.5642 ++ PTF = 0.1 ++ CJC = 2.167E-013 ++ VJC = 0.5482 ++ MJC = 0.3169 ++ XCJC = 0.788 ++ TR = 1.7E-008 ++ CJS = 0 ++ MJS = 1 ++ VJS = 1 ++ FC = 0.9999 ++ KF = 0 ++ AF = 1) +*************************************************************** +* +* +.ENDS BFR182W + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFR193F <<< +* (C) 2016 Infineon Technologies AG +* Version 2.2 April 2016 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR193F 11 22 33 +.SUBCKT BFR193F 11 22 33 +* +CBEPAR 2 3 2.737E-013 +CBCPAR 2 1 2.594E-013 +CCEPAR 1 3 3.745E-014 +LEI 3 30 2.79522E-010 +LBI 2 20 2.78624E-010 +CBEPCK 20 30 3.15E-014 +CBCPCK 1 20 9.466E-014 +CCEPCK 1 30 2.664E-015 +LB 22 20 9.11766E-011 +LE 30 33 1.72174E-010 +LC 1 11 1.95916E-010 +* +Q1 1 2 3 M_BFR193F +* +.MODEL M_BFR193F NPN( ++ TNOM = 25 ++ IS = 4.981E-016 ++ BF = 114 ++ NF = 1 ++ VAF = 56.06 ++ IKF = 0.4814 ++ ISE = 3.125E-015 ++ NE = 1.723 ++ BR = 11.16 ++ NR = 0.9901 ++ VAR = 3.941 ++ IKR = 0.07071 ++ ISC = 2.254E-014 ++ NC = 1.894 ++ RB = 1.22358 ++ IRB = 0.0001166 ++ RBM = 0.85 ++ RE = 0.493289 ++ RC = 1.377 ++ XTB = 1.303 ++ EG = 1.11 ++ XTI = 6.548 ++ CJE = 2.049E-012 ++ VJE = 0.8885 ++ MJE = 0.372 ++ TF = 1.552E-011 ++ XTF = 33.9 ++ VTF = 3.177 ++ ITF = 0.6292 ++ PTF = 1E-015 ++ CJC = 6.473E-013 ++ VJC = 0.5728 ++ MJC = 0.3598 ++ XCJC = 1 ++ TR = 5.53E-009 ++ CJS = 0 ++ MJS = 0 ++ VJS = 0.1 ++ FC = 0.9999 ++ KF = 0 ++ AF = 1) +*************************************************************** +* +* +.ENDS BFR193F + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFR193W <<< +* (C) 2014 Infineon Technologies AG +* Version 2.1 March 2014 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR193W 11 22 33 +.SUBCKT BFR193W 11 22 33 +* +CBEPAR 2 3 5.631E-013 +CBCPAR 2 1 1.951E-013 +CCEPAR 1 3 2.672E-013 +LE 33 30 1.321E-010 +LB 22 20 1.799E-010 +LC 1 11 4.115E-010 +CBEPCK 20 30 7.019E-014 +CBCPCK 1 20 1.127E-013 +CCEPCK 30 1 1.608E-014 +LBI 20 2 8.707E-010 +LEI 30 3 7.404E-010 +* +Q1 1 2 3 M_BFR193W +* +.MODEL M_BFR193W NPN( ++ TNOM = 25 ++ IS = 4.786E-016 ++ BF = 120 ++ NF = 0.9942 ++ VAF = 50.17 ++ IKF = 0.5423 ++ ISE = 5.105E-015 ++ NE = 1.84 ++ BR = 8.857 ++ NR = 1.013 ++ VAR = 3.542 ++ IKR = 0.05596 ++ ISC = 3.304E-012 ++ NC = 13.24 ++ RB = 9.337 ++ IRB = 3.606E-005 ++ RBM = 0.8415 ++ RE = 0.1095 ++ RC = 1.707 ++ XTB = 1.303 ++ EG = 1.11 ++ XTI = 6.548 ++ CJE = 2.131E-012 ++ VJE = 0.9537 ++ MJE = 0.4469 ++ TF = 7.90231E-012 ++ XTF = 500 ++ VTF = 4.13692 ++ ITF = 5.28251 ++ PTF = 0.0695 ++ CJC = 8.04E-013 ++ VJC = 0.6315 ++ MJC = 0.3621 ++ XCJC = 0.848 ++ TR = 1.568E-008 ++ CJS = 0 ++ MJS = 0.1549 ++ VJS = 0.4556 ++ FC = 0.8585 ++ KF = 0 ++ AF = 1) +*************************************************************** +* +.ENDS BFR193W + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFR340F <<< +* (C) 2012 Infineon Technologies AG +* Version 2.1 January 2012 + +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 530 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** + +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR340F C B E +.SUBCKT BFR340F 1 2 3 +* +CBEPAR 22 33 3.138E-014 +CBCPAR 22 11 5.04E-014 +CCEPAR 11 33 1.229E-013 +LB 22 20 5.086E-010 +LE 33 30 4.152E-010 +LBx 20 2 4.824E-011 +LEx 30 3 5.149E-011 +LCx 11 1 3.501E-010 +CBEPCK 20 30 4.195E-015 +CBCPCK 20 11 4.235E-014 +CCEPCK 11 30 2.35E-014 +* +Q1 11 22 33 M_BFR340F +* +.MODEL M_BFR340F NPN( ++ TNOM = 25 ++ IS = 2.588E-017 ++ BF = 208.3 ++ NF = 1 ++ VAF = 80.12 ++ IKF = 0.1012 ++ ISE = 1.921E-015 ++ NE = 2 ++ BR = 8.99 ++ NR = 0.95 ++ VAR = 2.277 ++ IKR = 0.1924 ++ ISC = 3.85E-015 ++ NC = 1.5 ++ RB = 10.26 ++ IRB = 0 ++ RBM = 4.697 ++ RE = 1.016 ++ RC = 5.655 ++ XTB = -1.003 ++ EG = 1.11 ++ XTI = 2.728 ++ CJE = 9.724E-014 ++ VJE = 0.693 ++ MJE = 0.2059 ++ TF = 6.027E-012 ++ XTF = 12.98 ++ VTF = 1.928 ++ ITF = 0.04152 ++ PTF = 0.1 ++ CJC = 1.25E-013 ++ VJC = 0.5602 ++ MJC = 0.09189 ++ XCJC = 0.7499 ++ TR = 8.853E-005 ++ CJS = 0 ++ MJS = 1 ++ VJS = 1 ++ FC = 0.5 ++ KF = 3.4E-10 ++ AF = 2.1) +*************************************************************** +* +* +.ENDS BFR340F + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFR35AP <<< +* (C) 2016 Infineon Technologies AG +* Version 2.2 April 2016 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR35AP C B E +.SUBCKT BFR35AP 11 22 33 +* +CBEPAR 2 3 1.872E-013 +CBCPAR 2 1 1.575E-013 +CCEPAR 1 3 1.959E-013 +LEI 3 30 1E-009 +LBI 2 20 1E-009 +CBEPCK 20 30 1.304E-014 +CBCPCK 1 20 1.5E-013 +CCEPCK 1 30 1.5E-013 +LB 22 20 3E-010 +LE 30 33 3E-010 +LC 11 1 5.908E-010 +* +* +Q1 1 2 3 M_BFR35AP +* +.MODEL M_BFR35AP NPN( ++ TNOM = 25 ++ IS = 2.241E-016 ++ BF = 127.2 ++ NF = 0.9935 ++ VAF = 55.34 ++ IKF = 0.1506 ++ ISE = 2.144E-015 ++ NE = 1.797 ++ BR = 10 ++ NR = 0.99 ++ VAR = 3.105 ++ IKR = 0.1135 ++ ISC = 4.7E-015 ++ NC = 2.001 ++ RB = 9.688 ++ IRB = 0.0001166 ++ RBM = 0.85 ++ RE = 0.9388 ++ RC = 4.925 ++ XTB = 1.303 ++ EG = 1.11 ++ XTI = 6.548 ++ CJE = 6.901E-013 ++ VJE = 0.9 ++ MJE = 0.4469 ++ TF = 1.95E-011 ++ XTF = 453.7 ++ VTF = 5.969 ++ ITF = 1.249 ++ PTF = 1E-015 ++ CJC = 2.394E-013 ++ VJC = 0.5764 ++ MJC = 0.3352 ++ XCJC = 0.1048 ++ TR = 5.53E-009 ++ CJS = 0 ++ MJS = 0 ++ VJS = 0.1 ++ FC = 0.9999 ++ KF = 0 ++ AF = 1) +*************************************************************** +* +* +.ENDS BFR35AP + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFR380F <<< +* (C) 2011 Infineon Technologies AG +* Version 2.1 September 2011 +*************************************************************** +* - Please use the global SPICE parameter TEMP to set the junction +* temperature of this device in your circuit to get correct DC +* simulation results. +* - TEMP is calculated by TEMP=TA+P*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated power +* P=VCE*IC (IC collector current, VCE collector-emitter voltage). +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 145 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note 'Thermal Resistance Calculation' AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature. +* Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR380F C B E +.SUBCKT BFR380F 1 2 3 +* +CBEPAR 22 33 1.287E-014 +CBCPAR 22 11 3.804E-013 +CCEPAR 11 33 1.695E-013 +LB 22 20 2.257E-010 +LE 33 30 3.572E-010 +CBEPCK 24 34 5.689E-015 +CCEPCK 10 34 5.854E-014 +CBCPCK 24 10 1.589E-015 +LBX 24 2 1.469E-010 +LEX 34 3 6.231E-011 +LCX 10 1 2.247E-010 +Rcx 11 10 0.882 +Rbx 20 24 0.139 +Rex 30 34 0.02676 +* +Q1 11 22 33 M_BFR380F +* +.MODEL M_BFR380F NPN( ++ TNOM = 25 ++ IS = 2.254E-016 ++ BF = 182.7 ++ NF = 0.9937 ++ VAF = 55.15 ++ IKF = 0.4285 ++ ISE = 1.222E-014 ++ NE = 2 ++ BR = 17.16 ++ NR = 0.9923 ++ VAR = 2.971 ++ IKR = 0.005662 ++ ISC = 6.038E-015 ++ NC = 1.5 ++ RB = 2.564 ++ IRB = 0 ++ RBM = 0.01719 ++ RE = 0.1976 ++ RC = 1.932 ++ XTB = 0.2643 ++ EG = 1.11 ++ XTI = 4.663 ++ CJE = 1.313E-012 ++ VJE = 1 ++ MJE = 0.34 ++ TF = 7.477E-012 ++ XTF = 17.27 ++ VTF = 1.329 ++ ITF = 0.61 ++ PTF = 4.667 ++ CJC = 2.876E-013 ++ VJC = 0.5861 ++ MJC = 0.4332 ++ XCJC = 1 ++ TR = 1.793E-009 ++ CJS = 0 ++ MJS = 1 ++ VJS = 1 ++ FC = 0.7064 ++ KF = 2.229E-013 ++ AF = 1.64) +*************************************************************** +* +.ENDS BFR380F + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFR740L3RH <<< +* (C) 2012 Infineon Technologies AG +* Version 3.1 May 2012 +* +* Harald Boehm +*************************************************************** +* - Please use the global SPICE parameter TEMP to set the junction +* temperature of this device in your circuit to get correct DC +* simulation results. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated power +* P=VCE*IC (IC collector current, VCE collector-emitter voltage). +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 320 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note -Thermal Resistance Calculation- AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature. +* Please do not change this value. +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR740L3RH C B E +.SUBCKT BFR740L3RH 1 2 3 +* +* +CBEPAR 22 33 1.172E-014 +CBCPAR 22 11 4.305E-014 +CCEPAR 11 33 1.735E-013 +* +LB 222 20 4E-010 +LC 111 10 4E-010 +RBs 222 22 0.001 +RCs 111 11 0.001 +* +CBEPCK 20 30 3E-014 +CBCPCK 20 10 1.033E-014 +CCEPCK 10 30 1E-013 +LBX 20 2 1E-010 +LEX 30 3 1E-011 +LCX 10 1 5E-011 +RSUB 30 4 0.19 +RSUBNPN 44 4 578 +Rpsinker 4 33 0.16 +* +Q1 11 22 33 44 M_BFR740L3RH +* +K LB LC 0.1 +* +* +* +.MODEL M_BFR740L3RH NPN( ++ TNOM = 25 ++ IS = 1.362E-015 ++ BF = 632 ++ NF = 1.027 ++ VAF = 120 ++ IKF = 0.09421 ++ ISE = 1.4E-013 ++ NE = 2.6 ++ BR = 100 ++ NR = 1 ++ VAR = 1.7 ++ IKR = 0.0035 ++ ISC = 5E-015 ++ NC = 2 ++ RB = 2 ++ IRB = 0.000889 ++ RBM = 0.6 ++ RE = 0.1019 ++ RC = 5.14 ++ XTB = -2.482 ++ EG = 1.034 ++ XTI = 0.808 ++ CJE = 3.14E-013 ++ VJE = 0.8119 ++ MJE = 0.1431 ++ TF = 1.667E-012 ++ XTF = 200 ++ VTF = 0.3493 ++ ITF = 0.3 ++ PTF = 1 ++ CJC = 8.419E-014 ++ VJC = 0.4412 ++ MJC = 0.3364 ++ XCJC = 0.6466 ++ TR = 2.786E-008 ++ CJS = 2.229E-013 ++ MJS = 0.2684 ++ VJS = 0.4393 ++ FC = 0.8156 ++ KF = 2.56E-011 ++ AF = 1.798) +*************************************************************** +* +* +.ENDS BFR740L3RH + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 12 GHZ +* >>> BFR840L3RHESD <<< +* (C) 2012 Infineon Technologies AG +* Version 2.1 JUN 2012 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the junction +* temperature of the device in your application to get correct simulation results. +* This procedure is necessary because the GP model does not consider the +* self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 521 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*BFR840L3RHESD C B E +.SUBCKT BFR840L3RHESD 1 2 3 +* +Rcx 15 1 1.57895 +Rbx 25 2 1.92983 +Rex 35 3 0.0800447 +* +CBEPAR 22 33 1.9449E-013 +CBCPAR 22 11 3.44161E-014 +CCEPAR 11 33 2.24848E-013 +LB 22 20 3.04259E-010 +LC 11 10 2.88058E-010 +CBEPCK 20 30 1E-014 +CBCPCK 20 10 1.5502E-014 +CCEPCK 10 30 1E-014 +LBX 20 25 9.04631E-011 +LEX 30 35 3.71422E-011 +LCX 10 15 9.15043E-011 +* +R_CS_npn 55 5 500 +* +D1 33 25 M_D1 +D2 5 25 M_D2 +* +R_NBL_fdb 22 25 3.2 +R_PS 33 5 0.03 +RSUB 30 5 0.03 +* +D3 5 15 M_D3 +D4 23 33 M_D4 +D5 23 15 M_D5 +* +R_NBL_e11g 15 11 1.8 +* +Q1 11 22 33 55 M_BFR840L3RHESD +* +.MODEL M_D1 D( ++ IS=3E-015 ++ N=1 ++ RS=2.846 ++ CJO=4E-014) +* +.MODEL M_D2 D( ++ IS=3E-015 ++ N=1 ++ RS=4170 ++ CJO=4.5E-014) +* +.MODEL M_D3 D( ++ IS=6.911E-016 ++ N=1.1 ++ RS=1380 ++ CJO =9.5E-014) +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=1 ++ RS=0.2 ++ CJO =3E-014) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =3E-014) +* +.MODEL M_BFR840L3RHESD NPN( ++ TNOM = 25 ++ IS = 2.429E-016 ++ BF = 765.7 ++ NF = 1.012 ++ VAF = 375.1 ++ IKF = 0.0819 ++ ISE = 8.827E-014 ++ NE = 2.8 ++ BR = 194 ++ NR = 0.998 ++ VAR = 1.596 ++ IKR = 0.015 ++ ISC = 1.165E-015 ++ NC = 2 ++ RB = 7.53378 ++ IRB = 0 ++ RBM = 2.1 ++ RE = 0.4405 ++ RC = 7.246 ++ XTB = -2.276 ++ EG = 1.11 ++ XTI = -1.233 ++ CJE = 2.23E-014 ++ VJE = 0.9214 ++ MJE = 0.5 ++ TF = 1.1E-012 ++ XTF = 5.582 ++ VTF = 0.6828 ++ ITF = 0.4491 ++ PTF = 0.0214 ++ CJC = 6.6E-015 ++ VJC = 0.7723 ++ MJC = 1.005 ++ XCJC = 0.4894 ++ TR = 1E-010 ++ CJS = 1.147E-013 ++ MJS = 1.108 ++ VJS = 0.6112 ++ FC = 0.578 ++ KF = 1.65E-011 ++ AF = 1.53) +*************************************************************** +* +.ENDS BFR840L3RHESD + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 12 GHZ +* >>> BFR843EL3 <<< +* (C) 2013 Infineon Technologies AG +* Version 1.1 MAR 2013 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 375 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR843EL3 C B E +.SUBCKT BFR843EL3 1 2 3 +* +* +CBEPAR 22 33 2.608E-013 +CBCPAR 22 11 4.054E-014 +CCEPAR 11 33 3.59E-013 +* +Cfeed 11 66 5.2E-012 +Rfeed 66 22 1000 +Cfeedpar 66 33 1.672E-013 +* +LB 22 20 3.265E-010 +LC 11 10 3.426E-010 +CBEPCK 20 30 1E-014 +CBCPCK 20 10 1.5E-014 +CCEPCK 10 30 1E-014 +LBX 20 2 6E-011 +LEX 30 3 1.5E-011 +LCX 10 1 6E-011 +* +K_BC LB LC 0.05034 +* +R_CS_npn 55 5 500 +* +D1 33 25 M_D1 +D2 5 25 M_D2 +* +R_NBL_fdb 22 25 3.2 +R_PS 33 5 0.2131 +RSUB 30 5 0.0246 +* +D3 5 15 M_D3 +D4 23 33 M_D4 +D5 23 15 M_D5 +* +R_NBL_e11g 15 11 1.8 +* +Q1 11 22 33 55 M_BFR843EL3 +* +.MODEL M_D1 D( ++ IS=3E-015 ++ N=1 ++ RS=2.846 ++ CJO=4E-014) +* +.MODEL M_D2 D( ++ IS=3E-015 ++ N=1 ++ RS=4700 ++ CJO=4.5E-014) +* +.MODEL M_D3 D( ++ IS=6.911E-016 ++ N=1.1 ++ RS=1380 ++ CJO =9.5E-014) +* +.MODEL M_D4 D( ++ IS=3.5E-015 ++ N=1 ++ RS=0.2 ++ CJO =3E-014) +* +.MODEL M_D5 D( ++ IS=3.5E-015 ++ N=1.02 ++ RS=4.7 ++ CJO =3E-014) +* +.MODEL M_BFR843EL3 NPN( ++ TNOM = 25 ++ IS = 1.889E-016 ++ BF = 784.7 ++ NF = 1 ++ VAF = 375.1 ++ IKF = 0.1713 ++ ISE = 2.454E-015 ++ NE = 1.908 ++ BR = 98.98 ++ NR = 0.9941 ++ VAR = 1.375 ++ IKR = 0.05974 ++ ISC = 1.578E-015 ++ NC = 1.8 ++ RB = 5.716 ++ IRB = 0 ++ RBM = 1.477 ++ RE = 0.4167 ++ RC = 7.24 ++ XTB = -2.276 ++ EG = 1.11 ++ XTI = -1.233 ++ CJE = 8.091E-014 ++ VJE = 0.9141 ++ MJE = 0.06778 ++ TF = 1.007E-012 ++ XTF = 1 ++ VTF = 0.1832 ++ ITF = 0.5237 ++ PTF = 0.5 ++ CJC = 3.125E-014 ++ VJC = 0.6892 ++ MJC = 0.5349 ++ XCJC = 0.8 ++ TR = 1E-009 ++ CJS = 2.575E-013 ++ MJS = 0.5599 ++ VJS = 0.4343 ++ FC = 0.5715 ++ KF = 2.476E-016 ++ AF = 1.517) +*************************************************************** +* +.ENDS BFR843EL3 + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFR92P <<< +* (C) 2016 Infineon Technologies AG +* Version 2.2 April 2016 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR92P C B E +.SUBCKT BFR92P 11 22 33 +* +CBEPAR 2 3 1.872E-013 +CBCPAR 2 1 1.575E-013 +CCEPAR 1 3 1.959E-013 +LEI 3 30 1E-009 +LBI 2 20 1E-009 +CBEPCK 20 30 1.304E-014 +CBCPCK 1 20 1.5E-013 +CCEPCK 1 30 1.5E-013 +LB 22 20 3E-010 +LE 30 33 3E-010 +LC 11 1 5.908E-010 +* +* +Q1 1 2 3 M_BFR92P +* +.MODEL M_BFR92P NPN( ++ TNOM = 25 ++ IS = 2.241E-016 ++ BF = 127.2 ++ NF = 0.9935 ++ VAF = 55.34 ++ IKF = 0.1506 ++ ISE = 2.144E-015 ++ NE = 1.797 ++ BR = 10 ++ NR = 0.99 ++ VAR = 3.105 ++ IKR = 0.1135 ++ ISC = 4.7E-015 ++ NC = 2.001 ++ RB = 9.688 ++ IRB = 0.0001166 ++ RBM = 0.85 ++ RE = 0.9388 ++ RC = 4.925 ++ XTB = 1.303 ++ EG = 1.11 ++ XTI = 6.548 ++ CJE = 6.901E-013 ++ VJE = 0.9 ++ MJE = 0.4469 ++ TF = 1.95E-011 ++ XTF = 453.7 ++ VTF = 5.969 ++ ITF = 1.249 ++ PTF = 1E-015 ++ CJC = 2.394E-013 ++ VJC = 0.5764 ++ MJC = 0.3352 ++ XCJC = 0.1048 ++ TR = 5.53E-009 ++ CJS = 0 ++ MJS = 0 ++ VJS = 0.1 ++ FC = 0.9999 ++ KF = 0 ++ AF = 1) +*************************************************************** +* +* +.ENDS BFR92P + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFR93A <<< +* (C) 2016 Infineon Technologies AG +* Version 2.2 April 2016 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR93A 11 22 33 +.SUBCKT BFR93A 11 22 33 +* +CBEPAR 2 3 3.716E-013 +CBCPAR 2 1 1.70719E-013 +CCEPAR 1 3 2.083E-013 +LEI 3 30 1E-009 +LBI 2 20 1E-009 +CBEPCK 20 30 1.304E-014 +CBCPCK 1 20 1.5E-013 +CCEPCK 1 30 1.5E-013 +LB 22 20 3E-010 +LE 30 33 3E-010 +LC 1 11 6.2E-010 +* +Q1 1 2 3 M_BFR93A +* +.MODEL M_BFR93A NPN( ++ TNOM = 25 ++ IS = 6.872E-016 ++ BF = 134 ++ NF = 0.9872 ++ VAF = 30.8 ++ IKF = 0.3501 ++ ISE = 6.927E-016 ++ NE = 1.61 ++ BR = 22.18 ++ NR = 0.987 ++ VAR = 2.847 ++ IKR = 0.1135 ++ ISC = 1.465E-014 ++ NC = 2.001 ++ RB = 9.292 ++ IRB = 0.0001166 ++ RBM = 0.85 ++ RE = 0.34281 ++ RC = 1.266 ++ XTB = 1.303 ++ EG = 1.11 ++ XTI = 6.548 ++ CJE = 2.029E-012 ++ VJE = 0.9052 ++ MJE = 0.4406 ++ TF = 2.248E-011 ++ XTF = 146.1 ++ VTF = 8 ++ ITF = 2.097 ++ PTF = 1E-015 ++ CJC = 5.99092E-013 ++ VJC = 0.554562 ++ MJC = 0.359703 ++ XCJC = 0.1048 ++ TR = 5.53E-009 ++ CJS = 0 ++ MJS = 0 ++ VJS = 0.75 ++ FC = 0.9999 ++ KF = 0 ++ AF = 1) +*************************************************************** +* +* +.ENDS BFR93A + + + + + + +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 6 GHZ +* >>> BFR93AW <<< +* (C) 2014 Infineon Technologies AG +* Version 2.1 March 2014 +*************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFR93AW C B E +.SUBCKT BFR93AW 11 22 33 +* +CBEPAR 2 3 3.297E-013 +CBCPAR 2 1 2.991E-013 +CCEPAR 1 3 2.712E-013 +LEI 30 3 9E-010 +LBI 20 2 9E-010 +CBEPCK 20 30 1E-015 +CBCPCK 20 1 6.06E-014 +CCEPCK 1 30 3.088E-014 +LB 22 20 1.002E-010 +LE 33 30 8E-011 +LC 11 1 2.618E-010 +* +Q1 1 2 3 M_BFR93AW +* +.MODEL M_BFR93AW NPN( ++ TNOM = 25 ++ IS = 7.812E-016 ++ BF = 114.4 ++ NF = 1 ++ VAF = 47.34 ++ IKF = 0.3039 ++ ISE = 5.518E-015 ++ NE = 1.87 ++ BR = 19.25 ++ NR = 0.9935 ++ VAR = 3.148 ++ IKR = 0.09474 ++ ISC = 2.383E-016 ++ NC = 1.169 ++ RB = 12.47 ++ IRB = 4.381E-005 ++ RBM = 0.85 ++ RE = 0.8144 ++ RC = 1.126 ++ XTB = 1.303 ++ EG = 1.11 ++ XTI = 6.548 ++ CJE = 2E-012 ++ VJE = 0.9 ++ MJE = 0.415 ++ TF = 2.13043E-011 ++ XTF = 40 ++ VTF = 3.40089 ++ ITF = 1.36553 ++ PTF = 0.016 ++ CJC = 5.951E-013 ++ VJC = 0.5713 ++ MJC = 0.3602 ++ XCJC = 1 ++ TR = 4.388E-009 ++ CJS = 0 ++ MJS = 0 ++ VJS = 0.8804 ++ FC = 0.9611 ++ KF = 0 ++ AF = 1) +*************************************************************** +* +* +.ENDS BFR93AW + + + + diff --git a/Amplifier_BJT/bfp420.asy b/Amplifier_BJT/bfp420.asy new file mode 100644 index 0000000..fe66821 --- /dev/null +++ b/Amplifier_BJT/bfp420.asy @@ -0,0 +1,25 @@ +Version 4 +SymbolType BLOCK +LINE Normal -48 0 -16 0 +LINE Normal 0 -15 -16 -6 +LINE Normal 0 -48 0 -15 +LINE Normal -16 16 -16 -17 +LINE Normal 0 13 -16 6 +LINE Normal 0 48 0 13 +LINE Normal -4 8 -2 12 +LINE Normal -6 13 -4 8 +LINE Normal -2 12 -6 13 +LINE Normal 16 32 0 32 +LINE Normal 16 48 16 32 +PIN -48 0 TOP 8 +PINATTR PinName B +PINATTR SpiceOrder 2 +PIN 0 -48 RIGHT 8 +PINATTR PinName C +PINATTR SpiceOrder 1 +PIN 0 48 RIGHT 8 +PINATTR PinName E1 +PINATTR SpiceOrder 3 +PIN 16 48 LEFT 8 +PINATTR PinName E2 +PINATTR SpiceOrder 4 diff --git a/Amplifier_BJT/bfp420.lib b/Amplifier_BJT/bfp420.lib new file mode 100644 index 0000000..07aaf61 --- /dev/null +++ b/Amplifier_BJT/bfp420.lib @@ -0,0 +1,102 @@ +*************************************************************** +* Infineon Technologies AG +* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX +* VALID UP TO 10 GHZ +* >>> BFP420 <<< +* (C) 2012 Infineon Technologies AG +* Version 2.1 January 2012 +*************************************************************** +* - Please use the global SPICE GP parameter TEMP to specify the +* junction temperature of the device in your application to get +* correct simulation results. This procedure is necessary because +* the GP model does not consider the self heating of the device. +* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction +* temperature TEMP is the sum of the ambient temperature TA and +* the increment of temperature caused by the dissipated DC power Pdc. +* - RthJS is the thermal resistance between the junction and the +* soldering point. RthJS for this device is 260 K/W. RthSA is the +* thermal resistance of the PCB, from the soldering point to the +* ambient. For determination of RthSA please refer to Infineon's +* Application Note "Thermal Resistance Calculation" AN077. +* - The model has been verified in the junction temperature range +* -25°C to +125°C. +* - TNOM=25 °C is the nominal ambient temperature during measurement +* for the parameter extraction. Please do not change this value. +**************************************************************** +*.OPTION TNOM=25, GMIN= 1.00e-12 +*BFP420 C B E1 E2 +.SUBCKT BFP420 1 2 3 4 +* +CBEPAR 22 33 5.592E-014 +CBCPAR 22 11 1.143E-013 +CCEPAR 11 33 1.596E-013 +LB 22 20 7.42E-010 +LE 33 30 1.656E-010 +LC 11 10 7.7E-010 +CBEPCK 20 30 4.741E-014 +CBCPCK 20 10 1.135E-015 +CCEPCK 10 30 4.48E-014 +LBX 20 2 2.339E-010 +LEX 30 35 4.189E-011 +LCX 10 1 2.243E-010 +* +RE1 35 3 1E-03 +RE2 35 4 1E-03 +RSub 55 33 176.4 +* +Diode_sub 55 11 M_Diode_sub +* +Q1 11 22 33 55 M_BFP420 +* +.MODEL M_Diode_sub D( ++ IS = 4.356E-015 ++ N = 1.02 ++ RS = 0.1 ++ CJO = 4E-014 ++ TNOM = 25) +* +.MODEL M_BFP420 NPN( ++ TNOM = 25 ++ IS = 3.753E-017 ++ BF = 140.8 ++ NF = 0.9996 ++ VAF = 59.18 ++ IKF = 0.6604 ++ ISE = 1E-014 ++ NE = 2 ++ BR = 13.61 ++ NR = 0.9938 ++ VAR = 2.685 ++ IKR = 0.007013 ++ ISC = 3.49E-016 ++ NC = 1.5 ++ RB = 11.99 ++ IRB = 0 ++ RBM = 1.521 ++ RE = 0.3062 ++ RC = 2.152 ++ XTB = 0.1187 ++ EG = 1.11 ++ XTI = 4.162 ++ CJE = 5.621E-013 ++ VJE = 0.4892 ++ MJE = 0.2565 ++ TF = 4.83855E-012 ++ XTF = 6.245 ++ VTF = 10.66 ++ ITF = 0.5436 ++ PTF = 0 ++ CJC = 1.227E-013 ++ VJC = 0.8453 ++ MJC = 0.6803 ++ XCJC = 0.7 ++ TR = 4.7E-009 ++ CJS = 4.757E-013 ++ MJS = 1 ++ VJS = 0.5323 ++ FC = 0.4148 ++ KF = 65.9E-12 ++ AF = 2.0) +*************************************************************** +* +.ENDS BFP420 \ No newline at end of file diff --git a/Amplifier_BJT/bfp420_amp.asc b/Amplifier_BJT/bfp420_amp.asc new file mode 100644 index 0000000..b065470 --- /dev/null +++ b/Amplifier_BJT/bfp420_amp.asc @@ -0,0 +1,86 @@ +Version 4 +SHEET 1 880 784 +WIRE 240 -112 240 -144 +WIRE 240 16 240 -32 +WIRE 128 32 128 0 +WIRE 128 112 128 96 +WIRE 240 112 240 96 +WIRE 240 112 128 112 +WIRE 128 144 128 112 +WIRE 240 144 240 112 +WIRE 240 256 240 224 +WIRE 336 256 240 256 +WIRE 400 256 336 256 +WIRE 240 272 240 256 +WIRE 400 288 400 256 +WIRE -176 320 -272 320 +WIRE -64 320 -112 320 +WIRE -16 320 -64 320 +WIRE 128 320 128 224 +WIRE 128 320 64 320 +WIRE 192 320 128 320 +WIRE -64 336 -64 320 +WIRE -272 352 -272 320 +WIRE 240 400 240 368 +WIRE 256 400 256 368 +WIRE 256 400 240 400 +WIRE -64 416 -64 400 +WIRE 240 416 240 400 +WIRE 400 416 400 368 +WIRE -272 448 -272 432 +FLAG 240 -144 0 +FLAG 128 0 0 +FLAG -64 416 0 +FLAG -272 448 0 +FLAG 240 416 0 +FLAG 400 416 0 +FLAG 336 256 output +SYMBOL res 224 0 R0 +SYMATTR InstName R1 +SYMATTR Value 100 +SYMBOL res 112 128 R0 +SYMATTR InstName R2 +SYMATTR Value 16.5k +SYMBOL ind 224 128 R0 +SYMATTR InstName L1 +SYMATTR Value 80n +SYMBOL voltage 240 -16 R180 +WINDOW 0 24 96 Left 2 +WINDOW 3 24 16 Left 2 +WINDOW 123 0 0 Left 2 +WINDOW 39 0 0 Left 2 +SYMATTR InstName V1 +SYMATTR Value 6 +SYMBOL ind -32 336 R270 +WINDOW 0 32 56 VTop 2 +WINDOW 3 5 56 VBottom 2 +SYMATTR InstName L2 +SYMATTR Value 80n +SYMBOL cap 112 32 R0 +SYMATTR InstName C1 +SYMATTR Value 0.1µ +SYMBOL cap -80 336 R0 +SYMATTR InstName C2 +SYMATTR Value 10p +SYMBOL cap -112 304 R90 +WINDOW 0 0 32 VBottom 2 +WINDOW 3 32 32 VTop 2 +SYMATTR InstName C3 +SYMATTR Value 0.1µ +SYMBOL voltage -272 336 R0 +WINDOW 3 -63 -122 VRight 2 +WINDOW 123 24 44 Left 2 +WINDOW 39 24 124 Left 2 +SYMATTR Value PULSE(0 3.3 0 200p 200p 3n 50n) +SYMATTR Value2 AC 1 +SYMATTR SpiceLine Rser=50 +SYMATTR InstName V2 +SYMBOL bfp420 240 320 R0 +SYMATTR InstName Q1 +SYMATTR Prefix X +SYMATTR Value BFP420 +SYMBOL res 384 272 R0 +SYMATTR InstName R3 +SYMATTR Value 25 +TEXT -896 744 Left 2 !.include bfp420.lib +TEXT -896 768 Left 2 !.ac oct 1000 1 20g -- GitLab